Auxiliary oil circuit

What is claimed is: 1. An auxiliary oil circuit for a heat-generating assembly having a main oil sump configured to hold oil and a fluid pump in fluid communication with and configured to control a flow of the oil from the main oil sump for lubrication and cooling of the heat-generating assembly, the auxiliary oil circuit comprising: a first fluid passage in fluid communication with the fluid pump; an auxiliary reservoir arranged remotely from the heat-generating assembly and configured to receive at least a portion of the oil from the main oil sump via the first fluid passage; an orifice arranged in the first fluid passage and configured to control an amount of oil transferred from the main oil sump to the auxiliary reservoir; an active first valve arranged in the first fluid passage and configured to selectively open and close fluid communication between the main oil sump and the auxiliary reservoir; a second fluid passage in fluid communication with the auxiliary reservoir and configured to return the oil from the auxiliary reservoir to the main oil sump; an active second valve arranged in the second fluid passage and configured to selectively open and close fluid communication between the auxiliary reservoir and the main oil sump; and an electronic controller having an internal clock and programmed to: detect a time to fill the auxiliary reservoir via the internal clock; and regulate an oil level in the auxiliary reservoir via regulation of the active first and second valves using the detected time. 2. The auxiliary oil circuit of claim 1 , wherein the active first valve includes a first solenoid in electronic communication with the controller. 3. The auxiliary oil circuit of claim 1 , wherein the active second valve includes a second solenoid in electronic communication with the controller. 4. The auxiliary oil circuit of claim 1 , wherein the auxiliary reservoir includes an oil level detector configured to detect the oil level in the auxiliary reservoir and communicate the detected oil level to the electronic controller. 5. The auxiliary oil circuit of claim 4 , wherein the oil level detector is a float sensor. 6. The auxiliary oil circuit of claim 4 , wherein the oil level detector is a laser sensor. 7. The auxiliary oil circuit of claim 1 , wherein the active first valve is normally closed and the active second valve is normally open. 8. The auxiliary oil circuit of claim 1 , wherein the auxiliary reservoir includes an overflow fluid passage in fluid communication with the main oil sump. 9. A motor vehicle comprising: a heat-generating assembly having: a main oil sump configured to hold oil; and a fluid pump in fluid communication with and configured to control a flow of the oil from the main oil sump for lubrication and cooling of the heat-generating assembly; a first fluid passage in fluid communication with the fluid pump; an auxiliary reservoir arranged remotely from the heat-generating assembly and configured to receive at least a portion of the oil from the main oil sump via the first fluid passage; an orifice arranged in the first fluid passage and configured to control an amount of oil transferred from the main oil sump to the auxiliary reservoir; an active first valve arranged in the first fluid passage and configured to selectively open and close fluid communication between the main oil sump and the auxiliary reservoir; a second fluid passage in fluid communication with the auxiliary reservoir and configured to return the oil from the auxiliary reservoir to the main oil sump; and an active second valve arranged in the second fluid passage and configured to selectively open and close fluid communication between the auxiliary reservoir and the main oil sump; and an electronic controller having an internal clock and programmed to: detect a time to fill the auxiliary reservoir via the internal clock; and regulate an oil level in the auxiliary reservoir via regulation of the active first and second valves using the detected time. 10. The motor vehicle of claim 9 , wherein the active first valve includes a first solenoid in electronic communication with the controller. 11. The motor vehicle of claim 9 , wherein the active second valve includes a second solenoid in electronic communication with the controller. 12. The motor vehicle of claim 9 , wherein the auxiliary reservoir includes an oil level detector configured to detect the oil level in the auxiliary reservoir and communicate the detected oil level to the electronic controller. 13. The motor vehicle of claim 12 , wherein the oil level detector is a float sensor. 14. The motor vehicle of claim 12 , wherein the oil level detector is a laser sensor. 15. The motor vehicle of claim 9 , wherein the active first valve is normally closed and the active second valve is normally open. 16. The motor vehicle of claim 9 , wherein the auxiliary reservoir includes an overflow fluid passage in fluid communication with the main oil sump.