Failure event detection in a plasma arc torch

What is claimed is: 1. A method of determining a failure event of consumable for a plasma torch, the method comprising: monitoring, during operation of the plasma torch, at least one signal comprising an operating current or an operating voltage; determining whether the plasma torch is being operated in a transfer arc mode; and performing, when the plasma torch is operating in the transfer arc mode, steps including: filtering, during the transfer arc mode, the at least one signal using a high-pass filter to remove a low-frequency component of the at least one signal, thereby generating at least one filtered signal; setting a fault flag to indicate a potential consumable failure when a parameter of the at least one filtered signal exceeds and does not fall below a tolerance threshold during a predetermined time period, wherein the tolerance threshold corresponds to a predetermined success rate for capturing consumable failure; and shutting off at least one of the operating current or the operating voltage of the plasma arc torch during the transfer arc mode when the fault flag is set to indicate the potential consumable failure. 2. The method of claim 1 wherein the time period comprises about 1.5 milliseconds. 3. The method of claim 1 wherein the at least one signal is the operating current and the parameter of the at least one filtered signal comprises current amplitude, rate of current change or current amplitude fluctuation. 4. The method of claim 1 wherein the at least one signal is the operating voltage and the parameter of the at least one filtered signal comprises arc voltage amplitude, rate of arc voltage change or arc voltage amplitude fluctuation. 5. The method of claim 1 wherein the failure event includes an absence of an emitter in an electrode, a large loss of consumable material, an arc emitting off of a part of the electrode other than the emitter, or a combination thereof. 6. The method of claim 1 wherein the failure event includes installing a wrong consumable for a type of operation of the plasma torch. 7. The method of claim 6 wherein the type of operation comprises a cutting operation, heating operation, a gouging operation or a marking operation. 8. The method of claim 1 wherein the at least one signal comprises both the operating current and the operating voltage and wherein the setting a fault flag comprises determining when both the operating current and the operating voltage do not fall below their respective thresholds during the time period. 9. The method of claim 1 further comprising determining the tolerance threshold based on an output current of the plasma torch. 10. The method of claim 9 wherein the tolerance threshold comprises a current threshold of about 1.0A if the output current is less than about 45A, a current threshold of about 1.25A if the output current is between about 45A and about 75A, or a current threshold of about 1.5A if the output current is greater than about 75A. 11. The method of claim 1 wherein the tolerance threshold comprises a voltage threshold of about 3V. 12. The method of claim 1 , wherein the at least one signal is the operating current, and the parameter of the filtered signal is current amplitude. 13. A method of operating a plasma arc torch, the method comprising: monitoring, during operation of the plasma torch, an operating current signal of the plasma arc torch; determining whether the plasma arc torch is being operated in a transfer arc mode; and performing, when the plasma torch is operating in the transfer arc mode, steps including: filtering, during the transfer arc mode, the operating current signal using a high-pass filter to remove a low-frequency component of the operating current signal, thereby generating at least one filtered current signal; calculating an amplitude associated with the filtered current signal; determining when the amplitude of the filtered current signal exceeds and does not fall below a predetermined threshold during a predetermined time period, wherein the predetermined threshold corresponds to a predetermined success rate for capturing consumable failure; and providing a failure signal during the transfer arc mode when the amplitude of the filtered current signal exceeds and does not fall below the predetermined threshold during the predetermined time period. 14. The method of claim 13 wherein the time period comprises about 1.5 milliseconds. 15. The method of claim 13 wherein the failure signal includes shutting off the operating current of the plasma arc torch, an audible sound, a visual signal, an electronic signal, changing at least one operating parameter of the plasma arc torch, or a combination thereof. 16. A method for detecting a failure event of consumable of a plasma arc system, the plasma arc system having a controller and a plasma arc torch, the method comprising: monitoring by the controller, during operation of the plasma torch, at least one signal comprising an operating current or an arc voltage of the plasma arc torch for the failure event, monitoring for the failure event including at least one of: monitoring the operating current signal including monitoring a parameter of the operating current signal comprising (a) current amplitude, (b) rate of current change, or (c) current amplitude fluctuation; or monitoring the operating voltage signal including monitoring a parameter of the operating voltage signal comprising (a) arc voltage amplitude, (b) rate of arc voltage change, or (c) arc voltage amplitude fluctuation; determining whether the plasma arc torch is being operated in a transfer arc mode; and performing, when the plasma arc torch is operating in the transfer arc mode, steps including: filtering, during the transfer arc mode, the at least one signal using a high-pass filter to remove a low-frequency component of the at least one signal, thereby generating at least one filtered signal; determining when the parameter of the at least one signal exceeds and does not fall below a tolerance threshold during a predetermined time period indicative of the failure event, wherein the predetermined threshold corresponds to a predetermined success rate for capturing consumable failure; and providing, during the transfer arc mode, a failure signal from the controller to the plasma arc system upon detection of the failure event. 17. The method of claim 16 wherein the failure signal comprises shutting off the operating current of the plasma torch, audible sound, visual signal, electronic signal, changing at least one operating parameter to protect the plasma arc torch, or a combination thereof. 18. A method of determining a failure event of consumable for a plasma torch, the method comprising: monitoring, during operation of the plasma torch, at least one signal comprising an operating current or an operating voltage; determining whether the plasma torch is being operated in a transfer arc mode; and performing, when the plasma torch is operated in the transfer arc mode, steps including: filtering, during the transfer arc mode, the at least one signal using a high-pass filter to remove a low-frequency component of the at least one signal, thereby generating at least one filtered signal; setting a fault flag to indicate a potential consumable failure when a parameter of the at least one filtered signal does not fall below a tolerance threshold during a predetermined time period; and shutting off at least one of the operating current or the operating voltage of the plasma arc torch during operation of the plasma to