Adaptive GMAW short circuit frequency control

What is claimed is: 1. A welding apparatus, comprising: a waveform compensation device; a power section coupled to said waveform compensation device which generates a welding waveform in accordance with a signal from said waveform compensation device and a welding arc based on said welding waveform; and a frequency detection device which detects at least one of a voltage, current and power of said welding arc and determines frequency information of said arc, wherein said waveform compensation device dynamically adjusts at least a portion of said welding waveform based on said frequency information; wherein said at least one of a voltage, current, and power is respectively compared to at least one of a voltage setpoint, a current setpoint, and a power setpoint; and wherein said frequency detection device uses at least one of a time duration of a short and a time duration of a non-short period to determine said frequency information. 2. The welding apparatus of claim 1 , wherein said waveform compensation device dynamically adjusts at least one of a voltage and current of said welding waveform based on an output from said frequency detection device. 3. The welding apparatus of claim 1 , further comprising a controller device which receives at least one input parameter and provides a welding frequency setpoint to said waveform compensation device based on said at least one input parameter. 4. The welding apparatus of claim 1 , wherein said frequency detection device determines said frequency information based on said comparison. 5. The welding apparatus of claim 1 , wherein said frequency detection device detects the voltage of said welding arc and determines said frequency information of said arc based on said detected voltage by comparing said detected voltage to said voltage setpoint. 6. The welding apparatus of claim 1 , wherein said output from said frequency detection device is a detected shorting frequency of said welding arc. 7. The welding apparatus of claim 1 , further comprising a controller device which receives at least one input parameter and provides a welding frequency setpoint to said waveform compensation device based on said at least one input parameter, and wherein said waveform compensation device dynamically adjusts said portion of said waveform to maintain said welding frequency setpoint. 8. The welding apparatus of claim 1 , wherein said frequency detection device detects the current of said welding arc and determines said frequency information of said arc based on said detected current by comparing said detected current to said current setpoint. 9. The welding apparatus of claim 1 , wherein said frequency detection device detects the power of said welding arc and determines said frequency information of said arc based on said detected power by comparing said detected power to said power setpoint. 10. The welding apparatus of claim 3 , wherein the at least one input parameter at least one of welding electrode size, electrode type, shielding gas type, wire feed speed, welding voltage, welding current, welding power, travel speed, weld metal type, weld metal thickness and welding position. 11. The welding apparatus of claim 4 , further comprising a controller device which receives at least one input parameter and wherein said at least one of said voltage setpoint, said current setpoint, and said power setpoint is determined based on said at least one input parameter. 12. The welding apparatus of claim 5 , further comprising a controller device which receives at least one input parameter and wherein said voltage setpoint is determined based on said at least one input parameter. 13. The welding apparatus of claim 5 , wherein said voltage setpoint is between 5 to 14 volts. 14. A method of welding, comprising: providing a welding signal to a power section; generating a welding waveform and a welding arc based on said welding signal; detecting at least one of a voltage, current, and power of said welding arc; determining frequency information of said welding arc; adjusting dynamically at least a portion of said welding waveform based on said determined frequency information; and comparing, respectively, said at least one of a voltage, current, and power to at least one of a voltage setpoint, a current setpoint, and a power setpoint, wherein said determining step uses at least one of a detected time duration of a short and a detected time duration of a non-short period to determine said frequency information. 15. The method of claim 14 , wherein said adjusting step comprises dynamically adjusting at least one of a voltage and current of said welding waveform based on an output from a frequency detection device. 16. The method of claim 14 , further comprising receiving at least one input parameter and providing a welding frequency setpoint for said welding signal based on said at least one input parameter. 17. The method of claim 14 , further comprising determining said frequency information based on said comparison. 18. The method of claim 14 , wherein said detecting step detects the voltage of said welding arc and said determining step determines said frequency information of said arc based on said detected voltage by comparing said detected voltage to said voltage setpoint. 19. The method of claim 14 , further comprising receiving at least one input parameter and providing a welding frequency setpoint for said welding signal based on said at least one input parameter, and dynamically adjusting said portion of said waveform to maintain said welding frequency setpoint. 20. The method of claim 14 , wherein said detecting step detects the current of said welding arc and said determining step determines said frequency information of said arc based on said detected current by comparing said detected current to said current setpoint. 21. The method of claim 14 , wherein said detecting step detects the power of said welding arc and said determining step determines said frequency information of said arc based on said detected power by comparing said detected power to said power setpoint. 22. The method of claim 16 , wherein the at least one input parameter at least one of welding electrode size, electrode type, shielding gas type, wire feed speed, welding voltage, welding current, welding power, travel speed, weld metal type, weld metal thickness and welding position. 23. The method of claim 17 , further comprising receiving at least one input parameter and setting said at least one of said voltage setpoint, said current setpoint, and said power setpoint based on said at least one input parameter. 24. The method of claim 18 , further comprising receiving at least one input parameter and setting said voltage setpoint based on said at least one input parameter. 25. The method of claim 18 , wherein said voltage setpoint is between 5 to 14 volts. 26. A welding apparatus, comprising: a waveform compensation device; a power section coupled to said waveform compensation device which generates a welding waveform in accordance with a signal from said waveform compensation device and a welding arc based on said welding waveform; a frequency detection device which detects at least one of a voltage, current and power of said welding arc to determine a time duration of a short of said arc, said time duration used to determine frequency information of said arc; and wherein said waveform compe