Methods and apparatus to synergically control a welding-type output during a welding-type operation

What is claimed is: 1. A welding-type power supply, comprising: a power conversion circuit configured to convert input power to welding-type power and to output the welding-type power to a welding-type torch; a communication circuit configured to receive a control signal from a remote control device during a welding-type operation; and a control circuit configured to execute machine readable instructions to synergically control a voltage of the welding-type power and a wire feed speed during the welding-type operation based on the control signal by: setting a commanded power level of the welding-type power based on the control signal; determining the voltage and the wire feed speed corresponding to the commanded power level according to a specified relationship between the voltage and wire feed speed at the commanded power level; controlling the power conversion circuit to output the voltage; and controlling a wire feeder based on the wire feed speed. 2. The welding-type power supply as defined in claim 1 , wherein the control circuit is configured to access a lookup table to determine the commanded power level of the welding-type power based on the control signal. 3. The welding-type power supply as defined in claim 1 , wherein the communication circuit is configured to receive the control signal from at least one of the welding-type torch or a foot pedal. 4. The welding-type power supply as defined in claim 1 , wherein the control circuit is configured to synergically control the voltage of the welding-type power by changing a deposition mode from a first deposition mode to a second deposition mode in response to the control signal. 5. The welding-type power supply as defined in claim 4 , wherein the first deposition mode is an arcless hotwire mode, a regulated metal deposition mode, a controlled short circuit mode, a short arc mode, a pulse spray mode, or a spray transfer mode, and the second deposition mode is another of the arcless hotwire mode, the regulated metal deposition mode, the controlled short circuit mode, the short arc mode, the pulse spray mode, or the spray transfer mode. 6. The welding-type power supply as defined in claim 1 , wherein the control circuit is configured to synergically control the voltage of the welding-type power and the wire feed speed to enable manual control of a heat input to the welding-type operation in real time during the welding-type operation. 7. The welding-type power supply as defined in claim 1 , wherein the control circuit is configured to synergically control the voltage of the welding-type power and the wire feed speed by controlling a remote wire feeder based on the wire feed speed. 8. The welding-type power supply as defined in claim 1 , wherein the control circuit is configured to select the voltage from a voltage range and select the wire feed speed from a wire feed speed range. 9. The welding-type power supply of claim 1 , wherein the control signal comprises at least one of an analog signal or an encoded digital signal and the control signal is representative of an amount of depression of at least one of a torch trigger or a foot pedal. 10. The welding-type power supply of claim 1 , wherein the control circuit is configured to synergically control the voltage of the welding-type power and the wire feed speed based on the control signal by controlling at least the voltage and the wire feed speed according to a predetermined relationship between the voltage and the wire feed speed. 11. The welding-type power supply of claim 1 , wherein the control circuit is configured to synergically control the voltage of the welding-type power and the wire feed speed based on the control signal by determining a voltage setpoint and a wire feed speed setpoint corresponding to the control signal.