A fuel cell system includes an air compressor that supplies oxidant gas to a fuel cell installed in a fuel cell vehicle, a measured rotational speed acquirer that acquires a measured value of rotational speed of the air compressor, and a controller that calculates a rotational speed command value of
A fuel cell system includes an air compressor that supplies oxidant gas to a fuel cell installed in a fuel cell vehicle, a measured rotational speed acquirer that acquires a measured value of rotational speed of the air compressor, and a controller that calculates a rotational speed command value of the air compressor based on required generated power of the fuel cell, calculates a torque command value of the air compressor based on the calculated rotational speed command value and current rotational speed of the air compressor, and controls rotational speed of the air compressor based on the calculated torque command value. The controller estimates the current rotational speed of the air compressor baaed on the measured value of the rotational speed acquired by the measured rotational speed acquirer and a history of the calculated torque command value, and calculates the torque command value by using the estimated rotational speed.
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1. A fuel cell system installed in a fuel cell vehicle, the fuel cell system comprising: an air compressor that supplies oxidant gas to a fuel cell installed in the fuel cell vehicle;a measured rotational speed acquirer that acquires a measured value of rotational speed of the air compressor; anda c
1. A fuel cell system installed in a fuel cell vehicle, the fuel cell system comprising: an air compressor that supplies oxidant gas to a fuel cell installed in the fuel cell vehicle;a measured rotational speed acquirer that acquires a measured value of rotational speed of the air compressor; anda controller that calculates a rotational speed command value of the air compressor based on required generated power of the fuel cell, calculates a torque command value of the air compressor based on the calculated rotational speed command value and current rotational speed of the air compressor, and controls rotational speed of the air compressor based ort the calculated torque command, value, whereinthe controller estimates the current rotational speed of the air compressor based on the measured value of the rotational speed acquired by the measured rotational speed acquirer and a history of the calculated torque command value, and calculates the torque command value by using the estimated rotational speed. 2. The fuel cell system in accordance with claim 1, wherein the controller performs filtering on the measured value of the rotational speed acquired by the measured rotational speed acquirer, estimates the current rotational speed based on rotational speed as a result of the filtering and the history of the calculated torque command value, and calculates the torque command value by using the estimated rotational speed. 3. The fuel cell system in accordance with claim 1, wherein the controller includes: a first computer that calculates the torque command value; anda second computer that controls rotational speed of the air compressor based on the torque command value, andthe second computer transmits the rotational speed acquired by the measured rotational speed acquirer to the first computer. 4. The fuel cell system in accordance with claim 1, wherein the controller performs smoothing processing on the calculated torque command value to generate an actual torque command value, and controls the rotational speed by using the actual torque command value, andthe controller estimates the actual torque command value corresponding to each value in the history of the calculated torque command value, and estimates the current rotational speed based on each estimated actual torque command value and the measured value of the rotational speed. 5. The fuel cell system in accordance with claim 1, wherein the history of the calculated torque command value includes a plurality of newest torque command values obtained by the calculation. 6. A method for controlling rotational speed of an air compressor in a fuel cell system including an air compressor that supplies oxidant gas to a fuel cell installed in a fuel cell vehicle, the method comprising: acquiring a measured value of rotational speed of the air compressor; andcalculating a rotational speed command value of the air compressor based on required generated power of the fuel cell, calculating a torque command value of the air compressor based on the calculated rotational speed command value and current rotational speed of the air compressor, and controlling the rotational speed of the air compressor based on the calculated torque command value, whereinthe controlling the rotational speed of the air compressor includes: estimating the current rotational speed of the air compressor based on the measured value acquired in the acquiring the measured value of the rotational speed and a history of the calculated torque command value; andcalculating the torque command value by using the estimated rotational speed. 7. The method for controlling rotational speed of an air compressor in accordance with claim 6, wherein calculating the torque command value includes: performing filtering on the measured value of the rotational speed acquired in the acquiring the measured value of the rotational speed, andcalculating the torque command value by using the current rotational speed estimated based on rotational speed as a result of the filtering and the history of the calculated torque command value. 8. The method for controlling rotational speed of an air compressor in accordance with claim 6, wherein the fuel cell system includes: a first computer that calculates the torque command value; anda second computer that controls rotational speed of the air compressor based on the torque command value, andthe second computer transmits the rotational speed acquired in the acquiring the measured value of the rotational speed to the first computer. 9. The method for controlling rotational speed of an air compressor in accordance with claim 6, wherein the controlling the rotational speed of the air compressor includes performing smoothing processing on the calculated torque command value to generate an actual torque command, value, and controlling the rotational speed by using the actual torque command value, andthe calculating the rotational speed command value of the air compressor includes estimating the actual torque command value corresponding to each value in the history of the calculated torque command value, and estimating the current rotational speed based on each the estimated actual torque command value and the measured value of the rotational speed. 10. The method for controlling rotational speed of an air compressor in accordance with claim 6, wherein the history of the calculated torque command value includes a plurality of newest torque command values obtained by the calculating.
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