Electric arc welder using high frequency pulses and negative polarity

The following is claimed: 1. An electric arc welder comprising: a high speed switching power supply with a controller for creating current pulses at a high frequency through a gap between a workpiece and a welding wire advancing toward the workpiece, wherein each of the high frequency current pulses includes a positive polarity peak current to transfer a droplet of molten metal from the welding wire to the workpiece through the gap; a wave shape generator defining a shape of the high frequency current pulses and a polarity of the high frequency current pulses during a weld cycle, wherein the weld cycle includes current pulses at the high frequency during a low energy portion and a high energy portion; and wherein at least one of the high frequency current pulses only during the low energy portion of the weld cycle includes negative polarity current to generate less heat in the workpiece than the high frequency current pulses during the high energy portion of the weld cycle. 2. The electric arc welder of claim 1 , wherein the wave shape generator is responsive to a signal indicative of the heat generated in the workpiece and defines the high frequency pulses during the low energy portion of the weld cycle with additional negative polarity current when the heat generated in the workpiece increases. 3. The electric arc welder of claim 2 , wherein the high energy portion and the low energy portion alternate at a low frequency, wherein the high frequency of the pulses is substantially greater than the low frequency of the alternating portions. 4. The electric arc welder of claim 3 , wherein the low frequency of the alternating portions is in the range of ¼ Hz to 40 Hz. 5. The electric arc welder of claim 1 , wherein the high frequency of the high frequency current pulses is in the range of 50-400 Hz. 6. The electric arc welder of claim 1 , further comprising a variable polarity switch responsive to the wave shape generator to control the polarity of the high frequency current pulses. 7. The electric arc welder of claim 2 , wherein the signal indicative of the heat in the workpiece is associated with an arc length between the workpiece and the welding wire, and wherein the wave shape generator defines the high frequency pulses during the low energy portion of the weld cycle with additional negative polarity current when the arc length decreases. 8. The electric arc welder of claim 2 , wherein the additional negative polarity current includes at least one of increasing an amperage of the negative polarity current and increasing a time duration of the negative polarity current. 9. The electric arc welder of claim 1 , further comprising a modulator to change the shape of the high frequency current pulses in a repeating pattern, wherein the repeating pattern occurs at a low frequency. 10. The electric arc welder of claim 9 , wherein the repeating pattern is selected from the group consisting of a sine curve, an alternating generally square curve, a saw tooth curve, and an alternating curvilinear curve, and wherein the repeating pattern defines a weld cycle with the high frequency pulses, and wherein the weld cycle comprises a high energy portion and a low energy portion alternating at the low frequency. 11. The electric arc welder of claim 10 , further comprising a wire feeder to feed the welding wire advancing toward the workpiece, wherein the wire feeder is responsive to the wave shape generator to control a wire feed speed, and wherein the wire feed speed is a first value during the high energy portion and a second value during the low energy portion. 12. A method of electric arc welding using an electric arc welder, comprising: creating current pulses at a high frequency through a gap between a workpiece and a welding wire advancing toward the workpiece; defining a shape of the high frequency current pulses and a polarity of the high frequency current pulses during a weld cycle, wherein the weld cycle includes current pulses at the high frequency during a low energy portion with variable polarity and a high energy portion with positive polarity; and wherein at least one of the high frequency current pulses only during the low energy portion of the weld cycle includes a negative polarity current to generate less heat in the workpiece than the high frequency current pulses during the high energy portion of the weld cycle. 13. The method of claim 12 , wherein defining the shape and polarity of the high frequency current pulses includes responding to a signal indicative of the heat generated in the workpiece and defining the high frequency pulses during the low energy portion of the weld cycle with additional negative polarity current when the heat generated in the workpiece increases. 14. The method of claim 13 , wherein the high energy portion and the low energy portion alternate at a low frequency, wherein the high frequency of the pulses is substantially greater than the low frequency of the alternating portions. 15. The method of claim 14 , wherein the low frequency of the alternating portions is in the range of ¼ Hz to 40 Hz. 16. The method of claim 12 , wherein the high frequency of the high frequency current pulses is in the range of 50-400 Hz. 17. The method of claim 13 , wherein the signal indicative of the heat in the workpiece is associated with an arc length between the workpiece and the welding wire, and defining the high frequency pulses during the low energy portion of the weld cycle with additional negative polarity current when the arc length decreases. 18. The method of claim 13 , wherein defining the high frequency pulses during the low energy portion of the weld cycle with additional negative polarity current includes at least one of increasing an amperage of the negative polarity current and increasing a time duration of the negative polarity current. 19. The method of claim 12 , further comprising modulating the shape of the high frequency current pulses in a repeating pattern, wherein the repeating pattern occurs at a low frequency. 20. The method of claim 19 , wherein the repeating pattern is selected from the group consisting of a sine curve, an alternating generally square curve, a saw tooth curve, and an alternating curvilinear curve, and wherein the repeating pattern defines a weld cycle with the high frequency pulses, wherein the weld cycle comprises a high energy portion and a low energy portion alternating at the low frequency. 21. The method of claim 20 , further comprising feeding the welding wire advancing toward the workpiece at a wire feed speed, and wherein the wire feed speed is a first value during the high energy portion and a second value during the low energy portion. 22. An electric arc welder comprising: a means for creating current pulses at a high frequency through a gap between a workpiece and a welding wire advancing toward the workpiece, wherein each of the high frequency current pulses includes a positive polarity peak current to transfer a droplet of molten metal from the welding wire to the workpiece through the gap; a means for shaping the high frequency current pulses during a weld cycle, wherein the weld cycle includes current pulses at the high frequency during a low energy portion and a high energy portion; a means for changing a polarity of the high frequency current pulses; and wherein at least one of the high frequency current pulses only during the low energy portion of the weld cycle includes negative polarity current to generate l