Apparatus and method for welding with AC waveform

What is claimed is: 1. A welding apparatus, comprising: a welding power converter which outputs a current which is a DC electrode negative welding waveform having a plurality of current peak portions and background portions where a peak current of each of current peak portions is larger than a highest current level of said background portions, where said welding power converter provides said DC electrode negative welding waveform to an electrode and at least one workpiece to weld said at least one workpiece; a short circuit detection circuit which detects a short circuit event between said electrode and said at least one work piece; and an AC welding module which changes the polarity of said current of said DC electrode negative welding waveform from negative to positive after the detection of said short circuit event, wherein after said current changes to positive polarity, said welding power converter outputs a short clearing current to clear said short circuit event and after said short circuit event is cleared, said AC welding module changes the polarity of said current from positive to negative, and wherein without the detection of said short circuit event said current is maintained as the DC electrode negative welding waveform having a plurality of current peak portions and background portions. 2. The welding apparatus of claim 1 , wherein said DC electrode negative welding waveform has a pulse-type welding waveform having a plurality of pulses and each of said current peak portions are peaks of said pulses. 3. The welding apparatus of claim 1 , wherein said short circuit detection event is before a short circuit condition is created between said electrode and said at least one workpiece. 4. The welding apparatus of claim 1 , wherein said short circuit detection event is after a short circuit condition is created between said electrode and said at least one workpiece. 5. The welding apparatus of claim 1 , wherein after said short circuit is cleared in said positive polarity, said welding output converter outputs a boost pulse of current before said polarity is changed from positive to negative. 6. The welding apparatus of claim 1 , wherein after said short circuit is cleared in said positive polarity and before said polarity is changed from positive to negative, said welding power converter outputs an arc stabilization current, where said arc stabilization current is maintained for a period in the range of 0.5 to 5 ms. 7. The welding apparatus of claim 6 , wherein a magnitude of said arc stabilization current is same as said highest current level of said background portions, but at a positive polarity. 8. The welding apparatus of claim 6 , wherein a magnitude of said arc stabilization current is in the range of 85 to 120% of said highest current level of said background portions, but at a positive polarity. 9. The welding apparatus of claim 1 , wherein said short detection circuit uses a detected dj/dt ratio and a comparison between said detected dj/dt ratio and a predetermined dj/dt threshold to detect said short circuit event. 10. The welding apparatus of claim 1 , wherein said detected short circuit event is before a short circuit condition exists between said electrode and said at least one workpiece and said AC welding module switches to positive polarity before said short circuit condition exists, and after switching to said positive polarity said welding power converter outputs a low current level to initiate contact between said electrode and said at least one workpiece and after said contact said welding power converter outputs said short clearing current.