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    • 7. 发明授权
    • Control system for internal combustion engine
    • 内燃机控制系统
    • US06379280B1
    • 2002-04-30
    • US09655442
    • 2000-09-05
    • Ken OgawaIsao KomoriyaShuji Nagatani
    • Ken OgawaIsao KomoriyaShuji Nagatani
    • F02D4110
    • F02D41/10F02D2250/21Y10T477/675Y10T477/679
    • Control system for an internal combustion engine, for setting a desired torque in response to operating conditions of the engine and controlling torque based on the set desired torque. A crank angle position sensor detects an engine rotational speed. An accelerator position sensor detects an accelerator position. A required torque is calculated based on results of detection by the crank angle position sensor and the accelerator position sensor. Further, the calculated required torque is smoothed. Then, the present value of the required torque calculated at the present time and the smoothed required torque are compared with each other. When it is determined that the engine is being accelerated, an acceleration assist amount is calculated based on a difference value between the present value of the required torque and the smoothed required torque. Then, the acceleration assist amount is added to the smoothed required torque, whereby the desired torque is set.
    • 用于内燃机的控制系统,用于响应于发动机的操作条件设定期望的扭矩并且基于设定的期望扭矩控制转矩。 曲柄角位置传感器检测发动机转速。 加速器位置传感器检测加速器位置。 基于曲柄角位置传感器和加速器位置传感器的检测结果来计算所需的扭矩。 此外,所计算的所需扭矩被平滑。 然后,将当前计算的所需扭矩的当前值和平滑的所需转矩进行比较。 当确定发动机正在加速时,基于所需扭矩的当前值和平滑的所需扭矩之间的差值来计算加速度辅助量。 然后,将加速辅助量加到平滑的所需扭矩上,由此设定所需的扭矩。
    • 10. 发明授权
    • Fuel injection control system for internal combustion engine
    • 内燃机燃油喷射控制系统
    • US06463906B2
    • 2002-10-15
    • US09816238
    • 2001-03-26
    • Ken OgawaIsao KomoriyaKazuhiro Ueda
    • Ken OgawaIsao KomoriyaKazuhiro Ueda
    • F02D4140
    • F02D41/005F02B17/005F02D9/04F02D41/047F02D41/3029F02D41/401F02D2041/389F02D2200/0602F02M26/48Y02T10/44Y02T10/47
    • There is disclosed a fuel injection control system for an internal combustion engine, which is capable of properly determining fuel injection timing such that the fuel injection timing reflects behaviors of injected fuel, thereby improving drivability and fuel economy. The internal combustion engine of an in-cylinder fuel injection type is operated while switching between a stratified combustion mode in which fuel injection into each cylinder is performed during a compression stroke and a homogenous combustion mode in which the fuel injection into the cylinder is performed during an intake stroke. The fuel injection control system controls fuel injection timing. A required fuel injection time is determined based on detected operating conditions of the engine. A direct ratio and a carry-off ratio are determined based on the operating conditions of the engine. The required fuel injection time is corrected by using the direct ratio and the carry-off ratio, whereby a final fuel injection time period is determined. Based on the engine rotational speed and the final fuel injection time period, the fuel injection timing is determined.
    • 公开了一种用于内燃机的燃料喷射控制系统,其能够适当地确定燃料喷射正时,使得燃料喷射正时反映喷射燃料的行为,从而提高驾驶性能和燃料经济性。 缸内燃料喷射型内燃机在压缩冲程期间在其中进行到每个气缸中的燃料喷射的分层燃烧模式和在气缸内的燃料喷射进入气缸的均匀燃烧模式之间切换时进行操作 进气冲程。 燃料喷射控制系统控制燃料喷射正时。 基于检测到的发动机的运行条件来确定所需的燃料喷射时间。 根据发动机的运行条件确定直接比例和起飞比。 所需的燃料喷射时间通过使用直接比率和起飞比来校正,由此确定最终燃料喷射时间段。 基于发动机转速和最终燃料喷射时间段,确定燃料喷射正时。