초록 ▼

A control system controls a turbo-charged trottled engine. The control system includes a throttle between the compressor and the engine, a wastegate communicated with exhaust upstream and downstream from the turbine, and a control unit for controlling the throttle and the wastegate. The control unit

A control system controls a turbo-charged trottled engine. The control system includes a throttle between the compressor and the engine, a wastegate communicated with exhaust upstream and downstream from the turbine, and a control unit for controlling the throttle and the wastegate. The control unit generates a desired air mass value per engine stroke as a function of a desired fuel flow amount and a stored compressor surge characteristic, generates a desired manifold air pressure value as a function of the desired air mass value and sensed engine parameters, and controls the throttle so that actual manifold air pressure matches the desired manifold air pressure. The control unit also generates a desired pressure boost value as a function of the desired manifold pressure value and a stored compressor surge characteristic, and controls the wastegate so that an actual boost pressure matches the desired boost pressure.

대표청구항 ▼

1. A method of controlling a turbo-charged throttled engine having an intake air compressor, an exhaust turbine which receives engine exhaust, an air throttle between the compressor and the engine, and a wastegate communicated with engine exhaust upstream and downstream from the turbine, the method

1. A method of controlling a turbo-charged throttled engine having an intake air compressor, an exhaust turbine which receives engine exhaust, an air throttle between the compressor and the engine, and a wastegate communicated with engine exhaust upstream and downstream from the turbine, the method comprising:generating a desired air mass value per engine stroke value as a function of a desired fuel flow amount and a stored compressor surge characteristics;determining a minimum air mass per stroke required to avoid engine surge;comparing the desired engine air mass value to the minimum air mass value;setting the desired engine air mass value equal to the minimum air mass value if the desired engine air mass value is less than the minimum air mass value;if the desired engine air mass value is not less than the minimum air mass value, generating a desired manifold air pressure value as a function of the desired air mass value and sensed engine parameters; andcontrolling the air throttle so that an actual manifold air pressure matches the desired manifold air pressure. 2. The method of claim 1, further comprising:deriving a Fuel Air Ratio value from an oxygen sensor in the exhaust;deriving a Specific Humidity value from an air pressure sensor, a humidity sensor and a temperature sensor;determining an absolute manifold air temperature (MAT) from a temperature sensor; andcomputing the desired engine manifold air pressure (MAP) value using the following equation:where Flow Term=1000×engine displacement×VolEff/R×MAT, and where VolEff is the volumetric efficiency of the engine, and R is the gas constant. 3. The method of claim 1, further comprising:generating a desired pressure boost value as a function of the desired manifold pressure value and the stored compressor surge characteristic; andcontrolling the wastegate so that an actual boost pressure matches the desired boost pressure. 4. A method of controlling a turbo-charged throttled engine having an intake air compressor, an exhaust turbine which receives engine exhaust, an air throttle between the compressor and the engine, and a wastegate communicated with engine exhaust upstream and downstream from the turbine, the method comprising:generating a desired air mass value per engine stroke value as a function of a desired fuel flow amount and stored compressor surge characteristics;generating a desired pressure boost value as a function of the desired manifold pressure value and the stored compressor surge characteristics;generating a desired manifold air pressure value as a function of the desired air mass value and sensed engine parameters;determining an offset value representing a desired pressure drop across the air throttle;adding the offset value to the desired manifold air pressure value to produce a desired boost pressure value;computing a maximum allowable pressure boost to avoid compressor surge or overspeed;comparing the desired pressure boost value to the maximum allowable pressure boost value;if the desired pressure boost value is greater than the maximum allowable pressure boost value, then setting the desired pressure boost value equal to the maximum allowable pressure boost value;controlling the wastegate so that an actual boost pressure matches the desired boost pressure; andcontrolling the air throttle so that an actual manifold air pressure matches the desired manifold air pressure.