System for measuring energy using digitally controlled welding power sources

What is claimed is: 1. A method for monitoring a welding operation within a welding power supply, comprising: sampling pairs of instantaneous voltage and current values from a welding waveform during a first time period; determining instantaneous energy values from the sampled pairs of instantaneous voltage and current values; summing the instantaneous energy values to determine a total energy input into a weld during the first time period; comparing the determined total energy to an acceptable range of total energy values for the welding operation; determining a length of the weld made during the first time period; and determining an energy input per unit length during the first time period using the determined total energy input and the determined length of the weld. 2. The method of claim 1 , further comprising reporting the determined total energy. 3. The method of claim 1 , further comprising issuing an alert when the total energy is outside of the acceptable range of total energy values. 4. A method for monitoring a welding operation within a welding power supply, comprising: sampling pairs of instantaneous voltage and current values from a welding waveform during a first time period; determining instantaneous energy values from the sampled pairs of instantaneous voltage and current values; summing the instantaneous energy values to determine a total energy input into a weld during the first time period; comparing the determined instantaneous energy values to an acceptable range of instantaneous energy values for the welding operation; determining a length of the weld made during the first time period; and determining an energy input per unit length during the first time period using the determined total energy input and the determined length of the weld. 5. The method of claim 4 , further comprising issuing an alert when the determined instantaneous energy value is outside of the acceptable range of instantaneous energy values. 6. The method of claim 4 , further comprising reporting the determined energy input per unit length. 7. The method of claim 4 , further comprising comparing the determined energy input per unit length to an acceptable range of energy input per unit length values for the welding operation. 8. The method of claim 7 , further comprising issuing an alert when the energy input per unit length is outside of the acceptable range of energy input per unit length values. 9. The method of claim 4 , further comprising reporting the determined instantaneous energy values. 10. A method for monitoring a welding operation within a welding power supply, comprising: sampling pairs of instantaneous voltage and current values from a welding waveform during a first time period; determining instantaneous energy values from the sampled pairs of instantaneous voltage and current values; summing the instantaneous energy values to determine a total energy input into a weld during the first time period; determining a change in a physical characteristic of a welding consumable used in the welding operation during the first time period; determining an energy input per the physical characteristic of the welding consumable using the determined total energy input and the determined change in the physical characteristic of the welding consumable, and comparing the determined energy input per physical characteristic of the welding consumable to an acceptable range of energy input per physical characteristic of the welding consumable values for the welding operation. 11. The method of claim 10 , further comprising reporting the determined energy input per physical characteristic of the welding consumable. 12. The method of claim 10 , further comprising issuing an alert when the energy input per physical characteristic of the welding consumable is outside of the acceptable range of energy input per physical characteristic of the welding consumable values. 13. A welding power supply configured to monitor a welding operation, comprising: a sampler to sample pairs of instantaneous voltage and current values from a welding waveform during a first time period; a first determiner to determine instantaneous energy values from the sampled pairs of instantaneous voltage and current values; a summer to sum the instantaneous energy values; a second determiner to determine a total energy input into a weld during the first time period; a comparer to compare the determined total energy to an acceptable range of total energy values for the welding operation, a third determiner to determine a length of the weld made during the first time period; and a fourth determiner to determine an energy input per unit length during the first time period using the determined total energy input and the determined length of the weld. 14. The welding power supply of claim 13 , further comprising a reporter to report the determined total energy. 15. The welding power supply of claim 13 , further comprising an alerter to issue an alert when the total energy is outside of the acceptable range of total energy values. 16. A welding power supply configured to monitor a welding operation, comprising: a sampler to sample pairs of instantaneous voltage and current values from a welding waveform during a first time period; a first determiner to determine instantaneous energy values from the sampled pairs of instantaneous voltage and current values; a summer to sum the instantaneous energy values; a second determiner to determine a total energy input into a weld during the first time period; a comparer to compare the determined instantaneous energy values to an acceptable range of instantaneous energy values for the welding operation, a third determiner to determine a length of the weld made during the first time period; and a fourth determiner to determine an energy input per unit length during the first time period using the determined total energy input and the determined length of the weld. 17. The welding power supply of claim 16 , further comprising an alerter to issue an alert when the determined instantaneous energy value is outside of the acceptable range of instantaneous energy values. 18. The welding power supply of claim 13 , further comprising a reporter to report the determined energy input per unit length. 19. The welding power supply of claim 13 , further comprising a comparer to compare the determined energy input per unit length to an acceptable range of energy input per unit length values for the welding operation. 20. The welding power supply of claim 19 , further comprising an alerter to issue an alert when the determined energy input per unit length value is outside of the acceptable range of energy input per unit length values. 21. The welding power supply of claim 16 , further comprising a reporter to report the determined instantaneous energy values. 22. A welding power supply configured to monitor a welding operation, comprising: a sampler to sample pairs of instantaneous voltage and current values from a welding waveform during a first time period; a first determiner to determine instantaneous energy values from the sampled pairs of instantaneous voltage and current values; a summer to sum the instantaneous energy values; a second determiner to determine a total energy input into a weld during the first time period; a third determiner to determine a change in a physical characteristic of a welding consumable used in the welding operation during the fi