Exhaust gas recirculation pressure differential sensor error compensation
First Claim
1. A system for compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for use in a calculation of a flow rate of recirculated exhaust gas into a vehicle engine, the system comprising:
- a mechanism for providing data representing default output of the differential pressure sensor based on the coolant temperature of the engine and providing a predetermined threshold deviation of the default output;
a mechanism for determining the engine coolant temperature and an actual idle output of the sensor, when the engine is at an idle engine speed for a predetermined period of time;
a mechanism for calculating an actual error value of the sensor based on observing the actual idle output of engine coolant temperature; and
a mechanism for utilizing the actual error value in calculating the flow rate of the recirculated exhaust gas into the vehicle engine at off-idle conditions.
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Abstract
The present invention involves a system and method of compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for a calculation of a flow rate of recirculated exhaust gas into a vehicle engine. The method includes providing data representing default output of the differential pressure sensor based the coolant temperature of the engine and providing a predetermined threshold deviation of the default output. The method further includes determining the engine coolant temperature and an actual idle output of the sensor, when the engine is at an idle engine speed for a predetermined period of time, and calculating an actual error value of the sensor based on observing the actual idle output and engine coolant temperature. The method further includes utilizing the actual error of value of calculating the flow rate of the recirculated exhaust gas into the vehicle engine at off-idle conditions.
55 Citations
21 Claims
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1. A system for compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for use in a calculation of a flow rate of recirculated exhaust gas into a vehicle engine, the system comprising:
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a mechanism for providing data representing default output of the differential pressure sensor based on the coolant temperature of the engine and providing a predetermined threshold deviation of the default output;
a mechanism for determining the engine coolant temperature and an actual idle output of the sensor, when the engine is at an idle engine speed for a predetermined period of time;
a mechanism for calculating an actual error value of the sensor based on observing the actual idle output of engine coolant temperature; and
a mechanism for utilizing the actual error value in calculating the flow rate of the recirculated exhaust gas into the vehicle engine at off-idle conditions.
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2. A system for compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for use in a calculation of a flow rate of recirculated exhaust gas into a vehicle engine, the system comprising:
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an exhaust gas recirculation valve mounted in the engine exhaust line for controllably diverting a selected portion of the exhaust gas for mixture with intake air;
a temperature sensor mounted in the flow path of the engine coolant;
an obstruction in the flow path of the recirculated exhaust gas;
a differential pressure sensor including a first pressure tap located for sensing the pressure of the recirculated exhaust gas upstream of the obstruction, and a second pressure tap located for sensing the pressure of the recirculated exhaust gas downstream of the obstruction, the differential pressure sensor having outputs indicative of current differential pressure across the obstruction; and
control logic for determining flow rate of the recirculated exhaust gas, the control logic having data representing a list of default output of the differential pressure sensor based on the coolant temperature of the engine and having a predetermined threshold deviation of the default output of the differential pressure sensor. - View Dependent Claims (3)
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4. A method of compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for a calculation of a flow rate of recirculated exhaust gas into a vehicle engine, the method comprising:
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providing data representing a list of default output of the differential pressure sensor based on the coolant temperature of the engine and providing a predetermined threshold deviation of the default output;
determining the engine coolant temperature and an actual number of key-on output of the sensor, upon ignition of the engine;
signaling a key-on fault code and applying the default output at the respective coolant temperature to a calculation of the flow rate of recirculated exhaust gas into the vehicle engine, if the actual key-on output is greater than a first sum defined by the default output at the respective temperature plus the predetermined threshold deviation;
determining the engine coolant temperature and an actual idle output of the sensor, when the engine is at an idle engine speed for a predetermined period of time;
signaling an ignition fault code and applying the default output at the respective coolant temperature to the calculation of the flow rate of the recirculated exhaust gas into the vehicle engine, if the actual idle output is greater than a second sum defined by the respective default output at the respective temperature plus the predetermined threshold deviation;
calculating the actual idle output minus the default output at the respective coolant temperature thereby defining an actual error value of the sensor; and
applying a total to the calculation of the flow rate of the recirculated exhaust gas into the vehicle engine, the total defined by the actual error value plus the default output at the respective coolant temperature. - View Dependent Claims (5, 6, 7, 8, 9)
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10. A method of compensating sensor error of a differential pressure sensor on an exhaust gas recirculation passage for a recirculation of a flow rate of recirculated exhaust gas into a vehicle engine, the method comprising;
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providing data representing default output of the differential pressure sensor based on the coolant temperature of the engine and providing a predetermined threshold deviation of the default output;
determining the engine coolant temperature and an actual idle output of the sensor, when the engine is at an idle engine speed for a predetermined period of time;
calculating an actual error value of the sensor based on observing the actual idle output and engine coolant temperature; and
utilizing the actual error value in calculating the flow rate of the recirculated exhaust gas into the vehicle engine at off-idle conditions. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
determining the engine coolant temperature and an actual key-on output of the sensor, upon ignition of the engine;
signaling a key-on fault code and applying the default output at the respective coolant temperature to a calculation of the flow rate of recirculated exhaust gas into the vehicle engine, if the actual key-on output is greater than a first sum defined by the default output at the respective temperature plus the predetermined threshold deviation.
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15. The method of claim 14 further comprising signaling an ignition fault code and applying the default output at the respective coolant temperature to the calculation of the flow rate of the recirculated exhaust gas into the vehicle engine, if the actual idle output is greater than a second sum defined by the respective default output at the respective temperature plus the predetermined threshold deviation.
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16. The method of claim 10 wherein the default output ranges between 100 and 150 output counts at a coolant temperature between 5 and 100 degrees Celsius, the temperatures ranging between predetermined intervals.
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17. The method of claim 16 wherein the temperature range is in 5 degree intervals.
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18. The method of claim 16 wherein the output counts are indicative of differential pressure of between 0.0 to 5.0 pounds per square inch across the exhaust gas recirculation passage.
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19. The method of claim 16 wherein the predetermined threshold deviation of the default output is 5 counts.
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20. The method of claim 16 wherein the temperature range is in 5 degree intervals.
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21. The method of claim 16 wherein the counts are indicative of differential pressure between 0.0 to 5.0 pounds per square inch across the exhaust gas recirculation passage.
Specification