Detecting over-temperature in exhaust system

What is claimed is: 1. A method for determining an over-temperature condition in an exhaust gas treatment system of a vehicle, the method comprising: comparing a current soot load in a particulate filter of the exhaust gas treatment system with a threshold soot load; comparing each of a plurality of temperatures sensed by a plurality of temperature sensors with a threshold temperature; and improving an accuracy of an over-temperature condition evaluation of the exhaust gas treatment system in response to selectively performing first and second different exhaust gas temperature evaluations based on an amount of the current soot load, the first exhaust gas temperature evaluation comprising: determining the current soot load is at a moderate level in response to the current soot load exceed the threshold soot load; and based on determining that the current soot load in a particulate filter of the exhaust gas treatment system is at a moderate level, determining that the exhaust gas treatment system is in the over-temperature condition in response to only one temperature sensor among the plurality of temperatures exceeding the threshold temperature; and the second exhaust gas temperature evaluation comprising: determining the current soot load is at a low level that is less than the moderate level in response to the current soot load falling below the threshold soot load; and based on determining that the current soot load in the particular filter is at the low level, determining that the exhaust gas treatment system is in the over-temperature condition in response to two or more temperature sensors among the plurality of temperature sensors exceeding the threshold temperature; and restricting at least one of an engine and transmission of the vehicle so as to restrict operation of the vehicle in response to determining the over-temperature condition. 2. The method of claim 1 further comprising adjusting the threshold temperature based on an exhaust gas flow rate for the exhaust gas treatment system. 3. The method of claim 2 , wherein the adjusting the threshold temperature comprises: increasing the threshold temperature based on determining that the exhaust gas flow rate is above a threshold flow rate; and decreasing the threshold temperature based on determining that the exhaust gas flow rate is below a threshold flow rate. 4. The method of claim 2 , wherein the adjusting the threshold temperature comprises finding a threshold temperature by looking up a table of different threshold temperatures for different exhaust gas flow rates. 5. The method of claim 1 further comprising determining a different threshold temperature for each of the plurality of the temperature sensors. 6. The method of claim 1 further comprising increasing the threshold temperature based on determining that the current soot load in the particulate filter exceeds the threshold soot load. 7. The method of claim 1 further comprising decreasing the threshold temperature based on determining that the current soot load in the particular filter does not exceed the threshold soot load. 8. The method of claim 1 further comprising generating a diagnostic trouble code (DTC) based on determining that that the exhaust gas treatment system is in an over-temperature condition. 9. The method of claim 1 , wherein the exhaust gas treatment system comprises a plurality of exhaust gas treatment components including the particulate filter, wherein the plurality of temperature sensors are disposed upstream and downstream of the exhaust gas treatment components. 10. An over-temperature monitoring system for improving an accuracy of evaluating an over-temperature condition of an exhaust gas treatment system included in a vehicle, comprising: a first module including an electronic processor having electronic memory that stores computer readable instructions that, when executed by the microprocessor is configured to compare a current soot load in a particulate filter of the exhaust gas treatment system with a threshold soot load, the first module configured to determine that the current soot load is at a moderate soot level when the current soot load exceeds the threshold soot load and to determine that the current soot load is at a low soot level less than the moderate level when the current soot load falls below the threshold soot load; a second module including an electronic processor having electronic memory that stores computer readable instructions that, when executed by the microprocessor is configured to compare each of a plurality of temperatures sensed by a plurality of temperature sensors with a threshold temperature; and third and fourth modules each including an electronic processor having electronic memory that stores computer readable instructions that, when executed by the microprocessor, are selectively activated to perform first and second different exhaust gas temperature evaluations based on determining the low and moderate soot levels, respectively to improve the accuracy of an over-temperature condition evaluation, wherein the selective activation of the third and fourth module comprises: activating the third module in response to determining the low soot level to determine that the exhaust gas treatment system is in an over-temperature condition based on determining by the second module that a temperature output from only one temperature sensor among the plurality of temperatures exceeds the threshold temperature; or activating the fourth module in response to determining the moderate soot level to determine that the exhaust gas treatment system is in an over-temperature condition based on determining by the second module that temperatures output from two or more temperature sensors among the plurality of temperatures exceed the threshold temperature, the third and fourth modules further configured to output a command signal that restricts at least one of an engine and transmission of the vehicle so as to restrict operation of the vehicle in response to determining the over-temperature condition. 11. The over-temperature monitoring system of claim 10 , wherein the second module is further configured to adjust the threshold temperature based on an exhaust gas flow rate for the exhaust gas treatment system. 12. The over-temperature monitoring system of claim 10 , wherein the second module is further configured to determine a different threshold temperature for each of the plurality of the temperature sensors. 13. The over-temperature monitoring system of claim 10 , wherein the second module is further configured to adjust the threshold temperature based on the current soot load in the particulate filter. 14. The over-temperature monitoring system of claim 10 , wherein the exhaust gas treatment system comprises a plurality of exhaust gas treatment components including the particulate filter, wherein the plurality of temperature sensors are disposed upstream and downstream of each of the exhaust gas treatment components. 15. An exhaust gas treatment system for treating exhaust generated by an engine of a vehicle, comprising: a particulate filter; a plurality of temperature sensors disposed in different locations in the exhaust gas treatment system; a control module configured to: compare a current soot load in a particulate filter of the exhaust gas treatment system with a threshold soot load; compare each of a plurality of temperatures sensed by a plurality of temperature sensors with a threshold temperature; improve an accuracy of an over-temperature condition evaluation of the exhaust gas treatment system in response to selective