Method and apparatus for welding with short clearing prediction

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A welding-type system, comprising: a power supply with a control input, wherein the power supply provides a welding-type output having an output voltage, and wherein the power supply includes a feedback circuit that provides a feedback signal responsive to the output voltage; and a controller, wherein the controller includes a short clearing prediction module that receives the feedback signal responsive to the output voltage, and determines a first derivative with respect to time of the feedback signal, and further calculates a predicted output voltage from the first derivative, and wherein the short clearing prediction module includes a comparison module that receives the feedback signal and a value that is a greater than the predicted output voltage by an offset or by a multiple of the predicted output voltage, wherein the value that is a function of the predicted output voltage is greater than the predicted output voltage, and wherein the short clearing prediction module determines that the short is about to clear and the comparison module is programmed to determine if the feedback signal exceeds or equals the value that is a function of the predicted output voltage, and wherein the controller provides a signal to the control input, causing an output current to decrease, in response to the short clearing prediction module determining that the short is about to clear. 2. The welding-type system of claim 1 , wherein the value that is a function of the predicted output voltage is between 101 and 103 percent of the predicted output voltage. 3. The welding-type system of claim 2 , wherein the controller changes the value that is a function of the predicted output voltage based on a past time difference of the elapsed time between a time the short actually clears and a time the short is predicted to clear. 4. The welding-type system of claim 1 , wherein the comparison module is not enabled until a delay after a short is formed. 5. The welding-type system of claim 4 , wherein the delay is between 200 microseconds and 500 microseconds. 6. The welding-type system of claim 1 , further comprising a multiplier that receives as an input the predicted output voltage, and is connected to the comparison module to provide the value that is a function of the predicted output voltage to the comparison module. 7. A welding-type system, comprising: a power supply with a control input, wherein the power supply provides a welding-type output having an output voltage, and wherein the power supply includes a feedback circuit that provides a feedback signal responsive to the output voltage; and a controller, wherein the controller includes a short clearing prediction module that receives the feedback signal responsive to the output voltage, and determines a first derivative with respect to time of the feedback signal, and further calculates a predicted output voltage from the first derivative, and wherein the short clearing prediction module includes a comparison module that receives the feedback signal and a value that is a function of the predicted output voltage, wherein the value that is a function of the predicted output voltage is greater than the predicted output voltage by at least one of an offset and a multiple of the predicted output voltage, and wherein the short clearing prediction module determines that the short is about to clear and the comparison module is programmed to determine if the feedback signal exceeds or equals the value that is a function of the predicted output voltage, and wherein the controller provides a signal to the control input, causing an output current to decrease, in response to the short clearing prediction module determining that the short is about to clear; wherein the controller includes a multiplier that calculates the predicted output voltage, and is connected to the comparison module to provide the value that is a function of the predicted output voltage to the comparison module, and wherein the short clearing prediction module further is programmed to include a second comparison module that compares a one of the first derivative of the feedback signal and the feedback signal to a second threshold, and wherein the short clearing prediction module is further programmed to determine that the short is about to clear when the comparison module determines that the one of the first derivative of the feedback signal and the feedback signal exceeds or equals the second threshold, and wherein the controller provides a signal to the control input, causing an output current to decrease, in response to the short clearing prediction module determining that the short is about to clear. 8. The welding-type system of claim 7 , wherein the one of the first derivative of the feedback signal and the feedback signal is the first derivative of the feedback signal. 9. The welding-type system of claim 7 , wherein the second comparison module compares the feedback signal to a second threshold. 10. A method of welding using the welding-type system of claim 1 , comprising: providing output power to a welding arc, wherein the output power has an output voltage and an output current; monitoring the output voltage, and determining when the arc becomes a short, based on the output voltage; monitoring the output voltage during the short; determining a first derivative of the output voltage; calculating a predicted output voltage from the first derivative; calculating a value that is a function of the predicted output voltage, wherein the value is greater than the predicted output voltage by at least one of an offset and a multiple of the predicted voltage; comparing the value and the output voltage; predicting that the short is about to clear when the output voltage exceeds or equals the value; and causing the output current to decrease, in response to predicting that the short is about to clear. 11. The method of claim 10 , wherein of the value is equal to the predicted output voltage multiplied by a percent greater than 100. 12. The method of claim 11 , wherein the percent is between 101 and 103. 13. The method of claim 10 , further comprising changing the value in response to a past time difference of the elapsed time between a time the short actually clears and a time the short is predicted to clear. 14. The method of claim 11 , wherein comparing the value and the output voltage is not performed until a delay after a short is formed. 15. The method of claim 10 , further comprising one of comparing the first derivative of the output voltage to a second threshold and comparing the output voltage to the second threshold, and predicting that the short is about to clear when one of the first derivative of the feedback signal and the feedback signal exceeds or equals the second threshold. 16. A method of short-arc welding using the welding-type system of claim 1 , comprising: providing power to a welding arc at a controlled output voltage; monitoring the output voltage, and determining when the arc becomes a short, based on the output voltage; monitoring the output voltage during the short; determining a first derivative of the output voltage; calculating a predicted output voltage from the first derivative; calculating a value that is a function of the predicted output voltage, wherein the value is greater than the predicted output voltage by at least one of an offset and a multiple of the predicted voltage; comparing the value and the output voltage; predicting that the short i