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    • 3. 发明申请
    • METHOD AND DEVICE FOR THE DYNAMIC MONITORING OF A BROADBAND LAMBDA PROBE
    • 宽带蓝宝石探测器动态监测的方法与装置
    • US20110184700A1
    • 2011-07-28
    • US13055791
    • 2009-07-03
    • Andreas MichalskeSascha-Juan Moran Auth
    • Andreas MichalskeSascha-Juan Moran Auth
    • G06F15/00
    • F02D41/1495F02D41/1456F02D2041/228F02D2400/08
    • The invention relates to a method for monitoring dynamic characteristics of a broadband lambda probe (25), wherein a measured lambda signal corresponding to an oxygen concentration in the exhaust gas of an internal combustion engine (1) is determined using a broadband lambda probe (25), wherein an observer producing a modeled lambda signal from input variables is associated with the internal combustion engine (1), and wherein an estimation error signal is formed from the difference of the modeled lambda signal and the measured lambda signal or from the difference of signals derived therefrom as an input variable of a controller (14) connected upstream of a model (15) in the observer (10). The problem of the invention is solved by a measure being determined for the dynamic characteristics of the broadband lambda probe (25) from an evaluation of the estimation error signal or of a variable derived therefrom, and by this measure being compared to predefined limits in order to evaluate the dynamic characteristics of the broadband lambda probe (25).
    • 本发明涉及一种用于监测宽带λ探针(25)的动态特性的方法,其中使用宽带λ探针(25)确定对应于内燃机(1)的废气中的氧浓度的测量的λ信号 ),其中从输入变量产生建模的λ信号的观测器与内燃机(1)相关联,并且其中估计误差信号由所建模的λ信号和所测量的λ信号的差异形成, 作为连接在观察者(10)中的模型(15)上游的控制器(14)的输入变量的信号。 通过从估计误差信号或从其导出的变量的评估来确定宽带λ探针(25)的动态特性的措施来解决本发明的问题,并且通过将该措施与预定义的限制进行比较 以评估宽带探针的动态特性(25)。
    • 8. 发明授权
    • Method for operating an internal combustion engine
    • 操作内燃机的方法
    • US09291113B2
    • 2016-03-22
    • US13503904
    • 2010-11-15
    • Andreas MichalskeThomas Kirstaetter
    • Andreas MichalskeThomas Kirstaetter
    • B60T7/12G05D1/00G06F7/00G06F17/00F02D41/00F02D41/18F02D41/22
    • F02D41/0077F02D41/0065F02D41/0072F02D41/18F02D41/222Y02T10/47
    • A method for operating an internal combustion engine. The internal combustion engine has at least one cylinder, to which are connected an intake manifold having an air mass sensor, an exhaust pipe having a λ-sensor and an exhaust gas recirculation line having an exhaust gas recirculation valve. The air mass sensor generates an air mass sensor signal. The λ-sensor generates a λ-sensor signal. The exhaust gas recirculation valve is adjusted by a control signal. A setpoint injection quantity is formed and the control signal of the exhaust gas recirculation valve is formed as a function of the air mass sensor signal. An air mass replacement signal for the air mass sensor signal is formed as a function of the λ-sensor signal and the setpoint injection quantity. In the case of a faulty air mass sensor signal, the control signal is formed as a function of the air mass replacement signal.
    • 一种用于操作内燃机的方法。 内燃机具有至少一个气缸,连接有具有空气质量传感器的进气歧管,具有λ传感器的排气管和具有废气再循环阀的排气再循环管。 空气质量传感器产生空气质量传感器信号。 λ传感器产生λ传感器信号。 排气再循环阀由控制信号调节。 形成设定点喷射量,并且作为空气质量传感器信号的函数形成排气再循环阀的控制信号。 作为λ传感器信号和设定点喷射量的函数形成空气质量传感器信号的空气质量置换信号。 在空气质量传感器信号有故障的情况下,根据空气质量置换信号形成控制信号。