Systems and methods for measuring characteristics of a welding cable

The invention claimed is: 1. A welding system, comprising: a welding power supply configured to provide welding power for a welding application through a weld cable; and a processor disposed within the welding power supply, wherein the processor is configured to transmit and receive data related to a welding operating parameter through the weld cable, to transmit one or more modulated or unmodulated tones through the weld cable, to determine an equalization filter coefficient related to the weld cable based on the one or more modulated or unmodulated tones, and to use the equalization filter coefficient to compensate for a distortive characteristic of the weld cable. 2. The welding system of claim 1 , wherein the distortive characteristic is a frequency and time dependent amplitude and phase distortion of the weld cable. 3. The welding system of claim 1 , comprising a welding torch coupled to the welding power supply and configured to receive the welding power and the data related to the welding operating parameter through the weld cable. 4. The welding system of claim 1 , wherein a transmitted modulated tone is a complex signal utilized by the processor to send or receive data related to the welding operating parameter. 5. The welding system of claim 1 , wherein the processor uses a sequence of modulated tones as a reference signal. 6. The welding system of claim 1 , wherein a transmitted unmodulated tone is a sinusoidal signal comprising a reference amplitude, a reference phase, and a reference frequency, and wherein the transmitted unmodulated tone is utilized by the processor as a reference signal. 7. The welding system of claim 1 , wherein the processor is coupled to a receiver configured to receive the one or more transmitted modulated or unmodulated tones through the weld cable. 8. The welding system of claim 7 , wherein the processor is configured to apply a digital filter to the one or more modulated or unmodulated tones, and wherein the digital filter is configured to determine the equalization filter coefficient related to the weld cable. 9. The welding system of claim 8 , wherein a received unmodulated tone comprises a received amplitude, a received frequency, and a received phase, and wherein the digital filter is configured to compare the received amplitude, the received frequency, and the received phase to a reference amplitude, a reference frequency, and a reference phase to determine the equalization filter coefficient related to the weld cable. 10. The welding system of claim 1 , wherein a transmitted modulated tone is a complex signal utilized by the processor to send or receive data related to the welding operating parameter, and wherein a transmitted unmodulated tone, utilized by the processor as a reference signal, comprises a reference amplitude, a reference phase, a reference frequency, a reference modulation scheme, or a combination thereof. 11. A method, comprising: transmitting an initial modulated tone and an initial reference tone through a weld cable from a transmitter; receiving a modulated tone and a reference tone through the weld cable at a receiver; applying a digital filter function to the reference tone to determine one or more differences between a template for the initial reference tone and the reference tone; determining one or more channel equalization filter coefficients based on the differences between the template for the initial reference tone and the reference tone; and compensating for a distortive characteristic of the weld cable based on the one or more channel equalization filter coefficients. 12. The method of claim 11 , wherein the transmitter, the receiver, and a processor configured to perform the digital filter function are disposed within a welding power supply. 13. The method of claim 11 , wherein the transmitter, the receiver, and a processor configured to perform the digital filter function are disposed within a welding wire feeder. 14. The method of claim 11 , comprising: transmitting the initial modulated tone and the initial reference tone through the weld cable to a welding torch; and receiving the modulated tone and the reference tone through the weld cable from the welding torch. 15. The method of claim 11 , wherein the reference tone is an unmodulated tone. 16. The method of claim 11 , wherein applying the digital filter function comprises measuring an actual amplitude, an actual phase, or an actual frequency of the reference tone. 17. The method of claim 16 , wherein applying the digital filter function comprises comparing the actual amplitude, the actual phase, and the actual frequency of the reference tone to a reference amplitude, a reference phase, and a reference frequency of the initial reference tone to determine the one or more differences. 18. A welding system, comprising: a welding wire feeder configured to output welding wire for a welding application; and a processor disposed within the welding wire feeder, wherein the processor is configured to transmit and receive data related to a welding operating parameter through a weld cable, to transmit one or more modulated or unmodulated tones through the weld cable, to determine an equalization filter coefficient related to the weld cable based on the one or more modulated or unmodulated tones, and to use the equalization filter coefficient to compensate for a distortive characteristic of the weld cable. 19. The welding system of claim 18 , wherein the distortive characteristic is a frequency and time dependent amplitude and phase distortion of the weld cable. 20. The welding system of claim 18 , comprising a welding torch coupled to the welding wire feeder and configured to receive the welding wire and the data related to the welding operating parameter through the weld cable. 21. The welding system of claim 18 , wherein the processor is coupled to a transmitter configured to transmit a reference unmodulated tone, wherein the reference unmodulated tone comprises a reference amplitude, a reference phase, a reference frequency, or a combination thereof. 22. The welding system of claim 21 , wherein the processor is coupled to a receiver configured to receive a received unmodulated tone, wherein the received unmodulated tone comprises a received amplitude, a received phase, a received frequency, or a combination thereof. 23. The welding system of claim 22 , wherein the processor is configured to apply a filter function configured to compare the reference unmodulated tone with the received unmodulated tone to determine one or more differences in an amplitude, a phase, a frequency, or a combination thereof. 24. The welding system of claim 23 , wherein the filter function is configured to determine one or more channel equalization filter coefficients based on the one or more differences.