A short circuit arc welding system is disclosed. The control scheme uses a current command signal to drive the output current. The command signal is comprised of a long-term current command that sets the long-term current command level and a real-time or short-by-short current command. Arc voltage
A short circuit arc welding system is disclosed. The control scheme uses a current command signal to drive the output current. The command signal is comprised of a long-term current command that sets the long-term current command level and a real-time or short-by-short current command. Arc voltage feedback is used to determine if the desired arc length is present and to adjust the long-term command. The short-by-short current command is derived from real-time arc current feedback and is used to control the burn-off rate by an instantaneous, or short-by-short, adjustment of the current command. A function of the time derivative of arc power, less the time derivative of arc current, is used to detect, in real time, when the short is about to clear. A stop algorithm is employed that monitors the arc on a short-by-short basis. When the process is ending a very low current level is provided to avoid forming a ball. However, if a short is created, (indicated by a drop in arc voltage) after the low current level, a burst of energy is provided to clear of burn off the short. After the short is cleared, very low current is again provided to avoid forming a large ball. This is repeated until the wire stops and the process ends.
대표청구항▼
The embodiments of the invention in which an exclusive property of privilege is claimed are defined as follows: 1. An apparatus for welding by depositing drops of molten metal at the end of a consumable welding wire into a weld puddle by short circuit transfer welding, comprising: a power source ha
The embodiments of the invention in which an exclusive property of privilege is claimed are defined as follows: 1. An apparatus for welding by depositing drops of molten metal at the end of a consumable welding wire into a weld puddle by short circuit transfer welding, comprising: a power source having a first waveform during a short condition and a second waveform during an arc condition as an output, wherein the output is in electrical communication with the welding wire; a feedback circuit, for providing a signal indicative of the output being in the short or the arc condition and further having as an output a real-time signal indicative of the heat input to each drop; a controller, coupled to the feedback circuit, and having a control output provided to the power source, wherein the control output commands the first waveform to have a desired and controlled current waveform and the second waveform to have a desired and controlled voltage waveform. 2. The apparatus of claim 1, wherein the feedback circuit includes a comparator. 3. The apparatus of claim 2, wherein the comparator receives a threshold voltage and a signal responsive to output voltage as inputs. 4. The apparatus of claim 1, wherein the controller controls the first and second waveforms to provide a desired mass deposition rate responsive to a wire feed speed and a distance from a tip of the wire to the workpiece. 5. The apparatus of claim 4, wherein the feedback circuit has an output current feedback signal and an output voltage feedback signal provided to the controller, and wherein the controller controls the first waveform in response to the output current feedback signal and the second waveform in response to the arc voltage feedback signal. 6. The apparatus of claim 1, wherein the feedback circuit has an output current feedback signal and an output voltage feedback signal provided to the controller, and wherein the controller controls the first waveform in response to the output current feedback signal and the second waveform in response to the arc voltage feedback signal. 7. An apparatus for welding by depositing drops of molten metal at the end of a consumable welding wire into a weld puddle by short circuit transfer welding, comprising: power means for providing power in the form of a first waveform during a short condition and a second waveform during an arc condition to the welding wire; feedback means for providing a signal indicative of the output being in the short or the arc condition and for providing a real-time signal indicative of the heat input to each drop; control means for controlling the power means in response to the feedback means, wherein the power means is controlled such that the first waveform has a desired and controlled current waveform and the second waveform has a desired and controlled voltage waveform. 8. The apparatus of claim 7, wherein the feedback means includes a means for comparing two signals. 9. The apparatus of claim 8, wherein the comparator means receives a threshold voltage and a signal responsive to output voltage as inputs. 10. The apparatus of claim 9, wherein control means includes means for controlling the first and second waveforms to provide a desired mass deposition rate responsive to a wire feed speed and a distance from a tip of the wire to the workpiece. 11. The apparatus of claim 7, wherein the feedback means provides an output current feedback signal and an output voltage feedback signal provided to the control means, and wherein the control means includes means for controlling the first waveform in response to the output current feedback signal and the second waveform in response to the arc voltage feedback signal. 12. A method of short circuit welding including depositing a plurality of successive drops, comprising: providing power in the form of a first waveform during a short condition and a second waveform during an arc condition to a welding wire; providing a feedback signal indicative of the output being in the short or the arc condition providing a real-time signal indicative of the heat input to each of the plurality of successive drops; controlling the power in response to the feedback such that the first waveform has a desired and controlled current waveform and the second waveform has a desired and controlled voltage waveform. 13. The method of claim 12, further comprises comparing two signals. 14. The method of claim 13, wherein comparing includes comparing a threshold voltage and a signal responsive to output voltage. 15. The method of claim 14, further comprising providing an output current feedback signal and an output voltage feedback signal to the control means, and controlling the first waveform in response to the output current feedback signal and the second waveform in response to the arc voltage feedback signal. 16. The method of claim 12, further comprising controlling the first and second waveforms to provide a desired mass deposition rate responsive to a wire feed speed and a distance from a tip of the wire to the workpiece.
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