Differential with passive thermal-management system

What is claimed is: 1. A differential assembly comprising: a housing defining an oil sump; a differential disposed in the housing; and a thermal-management system including: an oil pump in fluid communication with the sump, an oil-to-air heat exchanger external to the housing, and a passive valve assembly having an inlet connected to the pump, a first outlet connected to the heat exchanger, and a second outlet connected to a conduit disposed within the housing, the valve assembly further having a valve movable to a first position in which the inlet and the first outlet are in fluid communication and to a second position in which the inlet and the second outlet are in fluid communication, wherein the valve is configured to be in the first position in response to the oil exceeding a first threshold temperature. 2. The differential assembly of claim 1 , wherein the valve is configured to be in the second position when the oil is less than the first threshold temperature. 3. The differential assembly of claim 1 , wherein the valve is configured to be in the second position when the oil is less than the first threshold temperature and greater than a second threshold temperature. 4. The differential assembly of claim 1 , wherein the valve assembly further has a third outlet connected to a viscous-dissipation heater having an inlet and an orifice that is smaller than the inlet and sized to heat the oil through viscous dissipation, and wherein the valve is further movable to a third position in which the inlet and the third outlet are connected in fluid communication. 5. The differential assembly of claim 4 , wherein the valve is configured to be in the third position when the oil is less than a second threshold temperature and is configured to be in the second position when the oil is between the first and second threshold temperatures. 6. The differential assembly of claim 4 , wherein the orifice has a fixed size. 7. The differential assembly of claim 1 , wherein the valve assembly further has a third outlet, and the thermal-management system further includes a viscous-dissipation heater assembly including: a body defining an inlet connected to the third outlet, a second valve disposed in the body and actuatable to adjust an opening of the viscous-dissipation heater assembly, and an actuator including a hydraulic cylinder in fluid communication with the third outlet, the actuator being driveably connected to the valve and configured to actuate the valve to adjust a size of the opening. 8. The differential assembly of claim 1 , wherein the valve is a slidable spool, and wherein the valve assembly further has a passive actuator connected to the spool and configured to slide the spool between the first and second positions. 9. The differential assembly of claim 8 , wherein the passive actuator includes a thermal expansion material. 10. The differential assembly of claim 9 , wherein the material is wax. 11. The differential assembly of claim 5 , wherein the valve is a slidable spool, and wherein the valve assembly further has a first passive actuator with a first piston configured to slide the spool and a second passive actuator with a second piston configured to slide the spool, wherein the spool is biased to the third position, the first actuator is configured to move the spool to the second position in response to the oil exceeding the second threshold temperature, and the second actuator is configured to move the spool to the first position in response to the oil exceeding the first threshold temperature. 12. The differential assembly of claim 11 , wherein the first and second actuators each include a chamber filled with wax configured to actuate the first and second pistons, respectively. 13. The differential assembly of claim 11 , wherein the valve defines a bore, and the spool, the first passive actuator, and the second passive actuator are is disposed in the bore, wherein the first and second passive actuators are arranged in series with the first piston connected to the second actuator and the second piston connected to the spool. 14. The differential assembly of claim 1 , wherein the pump is driven by the differential.