Multi-voltage operation for driving a multi-mode channel

What is claimed is: 1. A device, comprising: a circuit element coupled with a channel; and a controller coupled with the circuit element and configured to cause the device to: couple the channel with the circuit element, wherein the channel is in a first mode in which the channel is terminated based at least in part on coupling the channel with the circuit element, and wherein signaling over the channel in the first mode is associated with a first modulation scheme that includes three or more voltage levels to encode data communicated via the channel; and decouple the channel from the circuit element, wherein the channel is in a second mode in which the channel is unterminated based at least in part on decoupling the channel from the circuit element, and wherein signaling over the channel in the second mode is associated with a second modulation scheme that includes fewer voltage levels to encode data communicated via the channel than the first modulation scheme. 2. The device of claim 1 , wherein the controller is further configured to cause the device to: set a value of an impedance of the circuit element to a first impedance value, wherein the first mode corresponds to the first impedance value, wherein the controller is configured to cause the device to couple the channel with the circuit element based at least in part on the first impedance value. 3. The device of claim 2 , wherein the controller is further configured to cause the device to: set the value of the impedance of the circuit element to a second impedance value, wherein the second mode corresponds to the second impedance value, the second impedance value being different than the first impedance value, wherein the controller is configured to cause the device to decouple the channel from the circuit element based at least in part on the second impedance value. 4. The device of claim 1 , further comprising: a driver couplable with the channel; and a voltage supply coupled with the driver, wherein the controller is coupled with the voltage supply and configured to cause the device to: set the voltage supply for the driver to a first voltage corresponding to the first mode based at least in part on coupling the channel with the circuit element; and set the voltage supply for the driver to a second voltage corresponding to the second mode based at least in part on decoupling the channel from the circuit element. 5. The device of claim 1 , wherein the controller is further configured to cause the device to: transmit signaling comprising an indication of a mode of the channel, wherein the mode comprises the first mode in which the channel is terminated or the second mode in which the channel is unterminated. 6. The device of claim 1 , wherein the controller is further configured to cause the device to: monitor the channel for signaling having a voltage swing between a first voltage bound and a second voltage bound different than the first voltage bound. 7. The device of claim 6 , wherein the voltage swing is equal to a difference between the first voltage bound and the second voltage bound when the channel is terminated. 8. The device of claim 6 , wherein the voltage swing is equal to the first voltage bound or the second voltage bound when the channel is unterminated. 9. The device of claim 1 , wherein the circuit element comprises an impedance component, and wherein an impedance of the channel is based at least in part on an impedance of the impedance component. 10. A method, comprising: coupling a channel with a circuit element of a device, wherein the channel is in a first mode in which the channel is terminated based at least in part on coupling the channel with the circuit element, and wherein signaling over the channel in the first mode is associated with a first modulation scheme that includes three or more voltage levels to encode data communicated via the channel; and decoupling the channel from the circuit element, wherein the channel is in a second mode in which the channel is unterminated based at least in part on decoupling the channel from the circuit element, and wherein signaling over the channel in the second mode is associated with a second modulation scheme that includes fewer voltage levels to encode data communicated via the channel than the first modulation scheme. 11. The method of claim 10 , further comprising: setting a value of an impedance of the circuit element to a first impedance value, wherein the first mode corresponds to the first impedance value, wherein coupling the channel with the circuit element of the device is based at least in part on the first impedance value. 12. The method of claim 11 , further comprising: setting the value of the impedance of the circuit element to a second impedance value, wherein the second mode corresponds to the second impedance value, the second impedance value being different than the first impedance value, wherein decoupling the channel from the circuit element is based at least in part on the second impedance value. 13. The method of claim 10 , further comprising: setting a voltage supply for a driver of the device to a first voltage corresponding to the first mode based at least in part on coupling the channel with the circuit element; and setting the voltage supply for the driver of the device to a second voltage corresponding to the second mode based at least in part on decoupling the channel from the circuit element. 14. The method of claim 10 , further comprising: transmitting signaling comprising an indication of a mode of the channel, wherein the mode comprises the first mode in which the channel is terminated or the second mode in which the channel is unterminated. 15. The method of claim 10 , further comprising: monitoring the channel for signaling having a voltage swing between a first voltage bound and a second voltage bound different than the first voltage bound. 16. The method of claim 15 , wherein the voltage swing is equal to a difference between the first voltage bound and the second voltage bound when the channel is terminated. 17. The method of claim 15 , wherein the voltage swing is equal to the first voltage bound or the second voltage bound when the channel is unterminated. 18. The method of claim 10 , wherein the circuit element comprises an impedance component, and wherein an impedance of the channel is based at least in part on an impedance of the impedance component.