Downstream oxygen sensor performance for selective catalytic reduction

What is claimed is: 1. An emissions control system for treating exhaust gas in a motor vehicle including an internal combustion engine, the emissions control system comprising: an oxidation device; an O2 diagnosis module configured to diagnose the oxidation device; and a controller that is configured to manage the O2 diagnosis module by: detecting a high hydrocarbon region in the operation of the internal combustion engine; responsively, measuring an upstream temperature of the oxidation device; and in response to the upstream temperature being above a predetermined threshold, delaying the O2 diagnosis module for a signal rationality delay time. 2. The emissions control system of claim 1 , wherein delaying the O2 diagnosis module comprises switching the O2 diagnosis module off for the signal rationality delay time. 3. The emissions control system of claim 1 , wherein the signal rationality delay time is a predetermined amount of time. 4. The emissions control system of claim 1 , wherein the signal rationality delay time is determined based on a state of the oxidation device. 5. The emissions control system of claim 4 , wherein determining the signal rationality delay time comprises accessing a look-up table corresponding to an oxidation device performance. 6. The emissions control system of claim 1 , wherein detecting the high hydrocarbon region comprises: detecting a fueling rate of the internal combustion engine being below a predetermined threshold. 7. The emissions control system of claim 6 , wherein detecting the high hydrocarbon region further comprises: detecting that the upstream temperature is below a second predetermined threshold. 8. An exhaust system for treating exhaust gas emitted by an internal combustion engine, configured to perform a selective catalytic reduction (SCR) of exhaust gas, the exhaust system comprising: an O 2 diagnosis module configured to diagnose oxidation performance of the exhaust system; and a controller configured to govern the exhaust system by: detecting a high hydrocarbon region in the operation of the internal combustion engine; responsively, measuring an upstream temperature of an oxidation device of the exhaust system; and in response to the upstream temperature exceeding a predetermined threshold, delaying the diagnosis module for a signal rationality delay time. 9. The exhaust system of claim 8 , wherein delaying the O 2 diagnosis module comprises switching the O 2 diagnosis module off for the signal rationality delay time. 10. The exhaust system of claim 8 , wherein the signal rationality delay time is a predetermined amount of time. 11. The exhaust system of claim 8 , wherein the signal rationality delay time is determined based on a state of the oxidation device. 12. The exhaust system of claim 8 , wherein detecting the high hydrocarbon region comprises: detecting a fueling rate of the internal combustion engine being below a predetermined threshold. 13. The exhaust system of claim 12 , wherein detecting the high hydrocarbon region further comprises: detecting that the upstream temperature is below a second predetermined threshold. 14. The exhaust system of claim 13 , wherein the high hydrocarbon region is caused by idling of the internal combustion engine. 15. A computer-implemented method for controlling an exhaust system of an internal combustion engine, the method comprising: detecting a high hydrocarbon region in the operation of the internal combustion engine; responsively, measuring an upstream temperature of an oxidation device of the exhaust system; and in response to the upstream temperature being equal to or above a predetermined threshold, delaying an O2 diagnosis of the exhaust system for a signal rationality delay time. 16. The method of claim 15 , wherein delaying the O2 diagnosis comprises switching an O2 diagnosis module of the exhaust system off for the signal rationality delay time. 17. The method of claim 15 , wherein the signal rationality delay time is determined based on a state of the oxidation device. 18. The method of claim 15 , wherein detecting the high hydrocarbon region comprises: detecting a fueling rate of the internal combustion engine being below a predetermined threshold. 19. The method of claim 18 , wherein detecting the high hydrocarbon region further comprises: detecting that the upstream temperature is below a second predetermined threshold. 20. The method of claim 19 , wherein the high hydrocarbon region is caused by idling of the internal combustion engine.