Systems, methods, and apparatus to preheat welding wire

What is claimed is: 1. A consumable electrode-fed welding-type system, comprising: a welding-type power source configured to provide welding-type power to a welding-type circuit, the welding-type circuit comprising a welding-type electrode and a first contact tip of a welding torch; an electrode preheating circuit configured to provide preheating power through a first portion of the welding-type electrode via a second contact tip of the welding torch; an electrode preheating control circuit configured to control the preheating power based on a user input specifying the preheating power; a user interface configured to receive a selection of a weld penetration; and wherein the electrode preheating control circuit is configured to: in response to an increase in the selected weld penetration, decrease the preheating power and increase the welding-type power; and in response to a decrease in the selected weld penetration, increase the preheating power and decrease the welding-type power; and a display device configured to: display a balance between the preheating power and the welding-type power based on the user input; display a total heat input of the preheating power and the welding-type power; and update the displays of the balance and the total heat input in response to a change in the user input. 2. The system as defined in claim 1 , wherein the user interface is configured to receive a selection of the preheating power, and the electrode preheating control circuit is configured to control the preheating power based on the selection. 3. The system as defined in claim 2 , wherein the electrode preheating control circuit is configured to control the welding-type power based on the selection. 4. The system as defined in claim 2 , wherein the user interface is configured to: display a value representing at least one of a preheating voltage, a preheating current, a preheating wattage, a total energy of the preheating power and the welding-type power, or a heat input efficiency; and update the value in response to the selection of the preheating power. 5. The system as defined in claim 2 , wherein the selection comprises a voltage balance, a wattage balance, a current balance, a heat balance, or an enthalpy balance, between the electrode preheating circuit and the welding-type circuit. 6. The system as defined in claim 2 , wherein the electrode preheating control circuit is configured to limit the selection of the preheating power using at least one of an upper preheating limit or a lower preheating limit. 7. The system as defined in claim 2 , wherein the user interface is configured to: display values representing at least one of the preheating power or the welding-type power; and update the values in response to the selection of the preheating power. 8. The system as defined in claim 7 , wherein the user interface is configured to display the values with reference to permitted selection ranges of the values. 9. The system as defined in claim 1 , wherein the electrode preheating circuit is configured to provide preheating power via the second contact tip and at least one of the first contact tip or a third contact tip. 10. The system as defined in claim 1 , wherein the user interface is further configured to receive a selection of at least one of a preheating current, a preheating voltage, preheating wattage, impedance, an electrode temperature, a power balance between the preheating wattage and arc wattage, a total heat input to the weld, a preheating enthalpy, a workpiece thickness, or a wire diameter of the welding-type electrode, the electrode preheating control circuit configured to control the preheating power based on the selection. 11. The system as defined in claim 1 , further comprising a penetration sensor configured to detect a weld penetration, and the electrode preheating control circuit is configured to control the preheating power and the welding-type power to maintain the amount of weld penetration within a threshold range. 12. The system as defined in claim 11 , wherein the electrode preheating control circuit is configured to limit the selection of the amount of weld penetration using at least one of an upper penetration limit or a lower penetration limit. 13. The system as defined in claim 1 , wherein the user interface is configured to receive a selection of a wire deposition rate, and the electrode preheating control circuit is configured to control the preheating power based on the selection. 14. A consumable electrode-fed welding-type system, comprising: a welding-type power source configured to provide welding-type power to a welding-type circuit, the welding-type circuit comprising a welding-type electrode and a first contact tip of a welding torch; an electrode preheating circuit configured to provide preheating power through a first portion of the welding-type electrode via a second contact tip of the welding torch; an electrode preheating control circuit configured to control the preheating power based on a user input specifying the preheating power; a user interface configured to receive a selection of a wire deposition rate; wherein the electrode preheating control circuit is configured to: in response to an increase in the selected wire deposition rate, increase the preheating power and increase a wire feed speed of the electrode; and in response to an decrease in the selected wire deposition rate, decrease the preheating power and decrease a wire feed speed of the electrode; and a display device configured to: display a balance between the preheating power and the welding-type power based on the user input; display a total heat input of the preheating power and the welding-type power; and update the displays of the balance and the total heat input in response to a change in the user input. 15. The system as defined in claim 14 , wherein the user interface is configured to receive a selection of the preheating power, and the electrode preheating control circuit is configured to control the preheating power based on the selection. 16. The system as defined in claim 14 , wherein the user interface is further configured to receive a selection of at least one of a preheating current, a preheating voltage, preheating wattage, impedance, an electrode temperature, a power balance between the preheating wattage and arc wattage, a total heat input to the weld, a preheating enthalpy, a workpiece thickness, or a wire diameter of the welding-type electrode, the electrode preheating control circuit configured to control the preheating power based on the selection. 17. The system as defined in claim 14 , wherein the electrode preheating circuit is configured to provide preheating power via the second contact tip and at least one of the first contact tip or a third contact tip. 18. A consumable electrode-fed welding-type system, comprising: a welding-type power source configured to provide welding-type power to a welding-type circuit based on a first control loop, the welding-type circuit comprising a welding-type electrode and a first contact tip of a welding torch; an electrode preheating circuit configured to provide preheating power through a first portion of the welding-type electrode via a second contact tip of the welding torch; an electrode preheating control circuit configured to control the preheating power based on a second control loop having a user input specifying at least one of a target heat input, a target preheating power level, a target ratio between the preheating power and the welding-type