Methodology of robust initialization of catalyst for consistent oxygen storage capacity measurement
First Claim
1. A method for measuring the oxygen storage capacity of a catalytic converter on board a vehicle, comprising:
- calculating an average Fuel Short Term Integrator (STI);
holding the value of said average Fuel Short Term Integrator (STI) in a fuel control subsystem throughout a measuring period of said oxygen storage capacity;
ramping an air/fuel ratio of an engine of said vehicle during said measuring period;
adjusting spark, air and fuel mixtures to said engine during said measuring period;
forcing said catalytic converter into a stable saturated state, said stable saturated state corresponding to a lean air to fuel ratio;
changing said saturated state to a rich air to fuel ratio;
measuring the time delay between a first oxygen sensor reaching a predetermined value corresponding to said first oxygen sensor and a second oxygen sensor reaching a predetermined value corresponding to said second oxygen sensor, said first oxygen sensor being positioned at the inlet of said catalytic converter and said second oxygen sensor being positioned at an outlet of said catalytic converter, said time delay corresponding to the oxygen storage capacity of said catalytic converter.
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Accused Products
Abstract
A method of initializing the catalyst converter for monitoring the conversion efficiencies of a catalytic converter by measuring the oxygen storage capacity (OSC) of the converter. The measurement of the OSC indicates the degree of health of the converter. Under the same engine running conditions, the greater the OSC measurement, the healthier the converter. The catalyst needs to be set to either a rich state or a lean state prior to the measurement of its OSC time. This process is called catalyst state initialization. The catalyst has to be fully saturated from test to test in order to make consistent OSC measurements. This is through open loop fuel control by commanding a lean air to fuel ratio and then monitoring thepost-O2 sensor voltage until it falls below a calibrated value (e.g. 80 mV) indicating a lean state. The system continues to command a lean air to fuel ratio (e.g. 6%) for a calibrated duration of time (e.g. 3 seconds) to saturate the catalytic converter and drive it to a fixed saturation state. This ensures consistent OSC measurement in the second stage of the test.
38 Citations
16 Claims
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1. A method for measuring the oxygen storage capacity of a catalytic converter on board a vehicle, comprising:
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calculating an average Fuel Short Term Integrator (STI);
holding the value of said average Fuel Short Term Integrator (STI) in a fuel control subsystem throughout a measuring period of said oxygen storage capacity;
ramping an air/fuel ratio of an engine of said vehicle during said measuring period;
adjusting spark, air and fuel mixtures to said engine during said measuring period;
forcing said catalytic converter into a stable saturated state, said stable saturated state corresponding to a lean air to fuel ratio;
changing said saturated state to a rich air to fuel ratio;
measuring the time delay between a first oxygen sensor reaching a predetermined value corresponding to said first oxygen sensor and a second oxygen sensor reaching a predetermined value corresponding to said second oxygen sensor, said first oxygen sensor being positioned at the inlet of said catalytic converter and said second oxygen sensor being positioned at an outlet of said catalytic converter, said time delay corresponding to the oxygen storage capacity of said catalytic converter. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A catalytic converter monitor apparatus, comprising:
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a first oxygen sensor mounted in a vehicle exhaust system upstream of a catalytic converter catalyst;
a second oxygen sensor mounted in the vehicle exhaust system downstream of at least a portion of the catalytic converter catalyst; and
an electronic controller coupled to said first and second oxygen sensors and to a vehicle engine, said vehicle engine provides an input signal indicative of an engine operating condition to the electronic controller, said electronic controller further comprising;
a control algorithm, said control algorithm determining an oxygen storage capacity of said catalytic converter; and
an adaptive table modifier, for updating a table as said catalytic converter ages;
wherein said control algorithm forces said catalytic converter into a stable saturated state, said stable saturated state corresponding to a lean air to fuel ratio after a predetermined time, said control algorithm further forcing said catalytic converter into a rich air to fuel ratio and measuring the time delay between said first oxygen sensor and said second oxygen sensor, said first oxygen sensor being positioned at the inlet of said catalytic converter and said second oxygen sensor being positioned at an outlet of said catalytic converter, said time delay corresponding to the oxygen storage capacity of said catalytic converter, said algorithm further normalizing the oxygen storage capacity to define a normalized oxygen storage capacity value and the normalized oxygen storage capacity value is compared to a threshold value, said threshold value indicating a properly operating catalytic converter. - View Dependent Claims (9)
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10. A method for measuring the oxygen storage capacity of a catalytic converter, comprising:
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stabilizing an engine of a vehicle;
capturing catalyst operating state data;
setting proportional fuel control to zero;
forcing said catalytic converter into a stable saturated state, said stable saturated state corresponding to a lean air to fuel ratio;
changing said saturated state to a rich air to fuel ratio;
measuring the time delay between a first oxygen sensor and a second oxygen sensor, said time delay corresponding to the oxygen storage capacity of said catalytic converter, said first oxygen sensor being positioned at the inlet of said catalytic converter and said second oxygen sensor being positioned at an outlet of said catalytic converter;
normalizing the oxygen storage capacity to define a normalized oxygen storage capacity value; and
comparing said normalized oxygen storage capacity value to a threshold value. - View Dependent Claims (11, 12, 13)
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14. A method for measuring the oxygen storage capacity of a catalytic converter in a vehicle, comprising:
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stabilizing an engine of a vehicle;
checking enabling conditions of said vehicle;
determining whether enabling conditions are met;
forcing the fuel control of said vehicle from a closed loop to an opening loop control;
setting a proportional fuel control to zero;
forcing said catalytic converter into a stable saturated state, said stable saturated state corresponding to a lean air to fuel ratio;
changing said saturated state to a rich air to fuel ratio;
measuring the time delay between a first oxygen sensor and a second oxygen sensor, said time delay corresponding to the oxygen storage capacity of said catalytic converter, said first oxygen sensor being positioned at the inlet of said catalytic converter and said second oxygen sensor being positioned at an outlet of said catalytic converter;
normalizing the oxygen storage capacity to define a normalized oxygen storage capacity value; and
comparing said normalized oxygen storage capacity value to a threshold value. - View Dependent Claims (15, 16)
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Specification