Welding power supplies, wire feeders, and systems to compensate a weld voltage via communications over a weld circuit

What is claimed is: 1. A weld circuit communications device, comprising: a receiver circuit to receive a communication via a weld circuit while current is flowing through the weld circuit or after the current has stopped flowing through the weld circuit, the communication including weld voltage feedback information measured at a device remote from a power supply and remote from the weld circuit communications device while the current is flowing through the weld circuit; a processor to generate power supply control information based on the weld voltage feedback information; and a local communications adapter to transmit the power supply control information via a communications port separate from the weld circuit to control welding-type power output by a power converter to regulate a weld voltage to a weld voltage setpoint. 2. The weld circuit communications device as defined in claim 1 , wherein the power supply control information includes at least one of a voltage setpoint, a voltage error, a weld cable impedance. 3. The weld circuit communications device as defined in claim 1 , further comprising a voltage monitor to measure a power supply output voltage, the weld voltage feedback information including a remote voltage measured closer to the weld than the power supply output voltage measurement location. 4. The weld circuit communications device as defined in claim 1 , further comprising a voltage monitor to measure a power source output voltage, the processor to generate the power supply control information using the weld voltage feedback information, the weld voltage setpoint, and the measured power source output voltage. 5. The weld circuit communications device as defined in claim 4 , wherein the weld voltage feedback information comprises a filtered arc voltage of the welding-type power measured at a wire feeder or a remote communications device, the voltage monitor is configured to determine a filtered power supply output voltage of the welding-type power measured at an output of the power supply, and the processor is configured to adjust a weld voltage of the welding-type power based on a difference between the filtered arc voltage and the filtered power supply output voltage. 6. The weld circuit communications device as defined in claim 1 , further comprising a transmitter to transmit weld information to the remote device via the weld circuit while the current is flowing through the weld circuit. 7. The weld circuit communications device as defined in claim 1 , wherein the weld voltage feedback information comprises a voltage error between the voltage setpoint and a voltage measured at the device remote from the power supply and remote from the weld circuit communications device while the current is flowing through the weld circuit, the processor to generate the power supply control information using the voltage error. 8. The weld circuit communications device as defined in claim 7 , wherein the processor is configured to calculate an impedance of a weld cable in the weld circuit using the voltage error, the power supply control information comprising the impedance of the weld cable. 9. The weld circuit communications device as defined in claim 1 , wherein the weld voltage feedback information comprises a voltage setpoint command, the processor to provide the voltage setpoint command for control of the power supply to output the welding-type power having a voltage determined by the voltage setpoint command. 10. A weld circuit communications device, comprising: a voltage monitor configured to measure a voltage of welding-type power transmitted via a weld circuit during a welding-type operation, the voltage monitor configured to be coupled to the weld circuit between a power supply and a wire feeder, and to be coupled to a workpiece; and a transmitter circuit configured to transmit, via the weld circuit during transmission of the welding-type power over the weld circuit, weld voltage feedback information based on the voltage of the welding-type power, wherein the weld circuit communication device is separate from the power supply and the wire feeder. 11. The weld circuit communications device as defined in claim 10 , further comprising a local communications adapter to receive a voltage setpoint from a welding device. 12. The weld circuit communications device as defined in claim 11 , further comprising a processor to determine a voltage setpoint command based on a voltage setpoint and the voltage, the transmitter circuit configured to transmit the voltage setpoint command via the weld circuit. 13. The weld circuit communications device as defined in claim 11 , wherein the transmitter circuit is configured to transmit the voltage setpoint via the weld circuit during transmission of the welding-type power over the weld circuit. 14. The weld circuit communications device as defined in claim 11 , further comprising a processor to determine an impedance of a weld cable in the weld circuit based on the voltage setpoint, the voltage, and a current of the welding-type power, the transmitter circuit configured to transmit the impedance via the weld circuit. 15. The weld circuit communications device as defined in claim 11 , further comprising a processor to determine a voltage error as a difference between the voltage setpoint and the voltage, the transmitter circuit to transmit the voltage error via the weld circuit. 16. A weld circuit communications device, comprising: a local communications adapter to receive a voltage measurement from a welding device on a first interface; a processor configured to generate weld voltage feedback information from the voltage measurement; and a transmitter circuit to transmit, via a weld circuit during transmission of welding-type power over the weld circuit, the weld voltage feedback information based on the voltage of the welding-type power. 17. The weld circuit communications device as defined in claim 16 , wherein the local communications adapter is configured to receive a voltage setpoint from the welding device and the transmitter circuit is configured to transmit the voltage setpoint via the weld circuit during transmission of the welding-type power over the weld circuit. 18. The weld circuit communications device as defined in claim 16 , wherein the local communications adapter is configured to receive a voltage setpoint from the welding device, the weld circuit communications device further comprising a processor to determine a voltage error as a difference between the voltage setpoint and the voltage, the transmitter circuit to transmit the voltage error via the weld circuit. 19. The weld circuit communications device as defined in claim 17 , further comprising a processor to determine an impedance of a weld cable in the weld circuit based on the voltage setpoint, the voltage, and a current of the welding-type power, the transmitter circuit configured to transmit the impedance via the weld circuit. 20. A remote welding accessory, comprising: an input connector configured to be coupled to a welding power supply via a weld cable; a weld output connector configured to be coupled to at least one of a stick torch or a TIG torch; a remote control interface for at least one of stick welding or TIG welding; and a transmitter circuit coupled to the input port and to a workpiece, and configured to transmit at least one of a parameter setpoint or feedback information to the welding power supply via a weld circuit including the weld cable.