Method and system to start and use combination filler wire feed and high intensity energy source for welding

We claim: 1. A method of welding, comprising: creating a weld puddle with at least one high intensity energy source; determining a first upper threshold value for a parameter of a filler wire heating signal; determining a second upper threshold value for said filler wire heating signal to prevent arc creation between a filler wire and said weld puddle; heating said filler wire with said filler wire heating signal from a power source to a temperature such that said filler wire melts in said weld puddle when said filler wire is in contact with said weld puddle; directing said filler wire to said weld puddle such that said filler wire maintains contact with said weld puddle during a welding operation; monitoring a feedback from said filler wire; maintaining said parameter of said filler wire heating signal at said first upper threshold value; shutting off said filler wire heating signal when, based on said feedback, said second upper threshold value is reached by said filler wire heating signal such that no arc is generated between said filler wire and said weld puddle; and turning on said filler wire heating signal to continue heating said filler wire. 2. The method of claim 1 , wherein said first upper threshold value is a power level for said filler wire heating signal. 3. The method of claim 1 , wherein said first upper threshold value is determined to heat said filler wire to a temperature that is at least 90% of a melting temperature of said filler wire at a point where said filler wire enters said weld puddle. 4. The method of claim 1 , wherein said second upper threshold value is a rate of change of a parameter of said filler wire heating signal. 5. The method of claim 1 , wherein said second upper threshold value is a value of dv/dt for said filler wire heating signal. 6. The method of claim 1 , wherein a current of said filler wire heating signal is reduced from its heating level to 0 amps in 1 ms or less. 7. A method of welding, comprising: creating a weld puddle with at least one high intensity energy source; determining an operational voltage range for a filler wire heating signal having an upper voltage limit and a non-zero lower voltage limit; heating a filler wire with said filler wire heating signal from a power source to a temperature such that said filler wire melts in said weld puddle; directing said filler wire to said weld puddle such that said filler wire maintains contact with said weld puddle during a welding operation; monitoring a feedback voltage level of said filler wire; shutting off said filler wire heating signal when said monitored feedback voltage level exceeds said upper voltage limit such that no arc is generated between said filler wire and said weld puddle; and turning on said filler wire heating signal to continue heating said filler wire. 8. The method of claim 7 , wherein said upper limit is 16 volts and said non-zero lower limit is 12 volts. 9. The method of claim 7 , wherein said upper limit is 9 volts and said non-zero lower limit is 6 volts. 10. The method of claim 7 , wherein said upper limit is 16 volts and said non-zero lower limit is 1 volt. 11. A method of welding, comprising: creating a weld puddle with at least one high intensity energy source; determining a heating power level for a filler wire heating signal to heat a filler wire to a temperature which is at least 75% of a melting temperature of said filler wire at a point when said filler wire enters said weld puddle; determining an upper threshold voltage level, which corresponds to an arc prevention voltage level for said filler wire heating signal; heating said filler wire with said filler wire heating signal from a power source to said heating power level; directing said filler wire to said weld puddle such that said filler wire maintains contact with said weld puddle during a welding operation; monitoring a feedback voltage level of said filler wire; shutting off said filler wire heating signal when said monitored feedback voltage level reaches said upper threshold voltage level such that no arc is generated between said filler wire and said weld puddle; and turning on said filler wire heating signal to continue heating said filler wire. 12. The method of claim 11 , wherein said upper voltage threshold level is 16 volts. 13. A method of welding, comprising: creating a weld puddle with at least one high intensity energy source; heating a filler wire with a filler wire heating signal from a power source to a temperature such that said filler wire melts in said weld puddle; directing said filler wire to said weld puddle such that said filler wire maintains contact with said weld puddle during a welding operation; monitoring a feedback from said filler wire; shutting off said filler wire heating signal when an arc is detected based on said feedback between a distal end of said filler wire and said weld puddle such that said arc exists between said filler wire and said weld puddle for no more than 10 ms; and turning on said filler wire heating signal to continue heating said filler wire. 14. The method of claim 13 , further comprising determining an upper threshold value for said filler wire heating signal, where said upper threshold value is determined to heat said filler wire to a temperature at least 75% of a melting temperature of said filler wire at a point where said filler wire enters said puddle. 15. The method of claim 13 , wherein said heating signal is controlled such that said arc exists for no more than 1 ms. 16. The method of claim 13 , wherein said heating signal is controlled such that said arc exists for no more than 300 μs.