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    • 2. 发明授权
    • Method and device for controlling operating sequences in a vehicle
    • 用于控制车辆中的操作序列的方法和装置
    • US06393342B2
    • 2002-05-21
    • US09752020
    • 2000-12-28
    • Juergen BauerRajendranath GoswamiVolker PitzalUte GappaUdo Schulz
    • Juergen BauerRajendranath GoswamiVolker PitzalUte GappaUdo Schulz
    • B60R1602
    • G06F9/4411G05B19/0426G05B2219/25092G05B2219/25109G05B2219/2637Y10S707/99953Y10S707/99954
    • A method and a device for controlling operating sequences in a vehicle using at least one control unit having at least one non-volatile memory element, control being performed as a function of the respective vehicle version and/or control unit version, and the respective functions are selected during function selection by defining an identifier according to the version used, at least one predefinable data record and/or program code in the memory element corresponding to the selected functions, and the data record and/or program code being selected from a plurality of data records and/or program codes. The plurality of data records and/or program codes is generated during a version selection, the identifier containing configuration parameters, and the configuration parameters being used for determining the data record and/or the program code, the respective identifier, i.e. the configuration parameters being used for the selection of the version and the selection of the function.
    • 一种用于使用至少一个具有至少一个非易失性存储元件的控制单元来控制车辆中的操作序列的方法和装置,根据各个车辆版本和/或控制单元版本执行控制,以及各个功能 在功能选择期间通过根据所使用的版本定义标识符,在与所选功能相对应的存储元件中的至少一个预定义数据记录和/或程序代码,以及从多个选择的数据记录和/或程序代码 的数据记录和/或程序代码。 在版本选择期间生成多个数据记录和/或程序代码,包含配置参数的标识符和用于确定数据记录和/或程序代码的配置参数,相应的标识符,即配置参数为 用于选择版本和功能的选择。
    • 4. 发明申请
    • INTERFACE DEVICE
    • 接口设备
    • US20090210074A1
    • 2009-08-20
    • US12305021
    • 2007-06-29
    • Anton LillJuergen Bauer
    • Anton LillJuergen Bauer
    • G05B19/02
    • G01D21/00G05B19/02
    • The invention relates to an interface device (100) for an electronic sensor system (200) comprising a plurality of sensors (210, 220) and a processing unit (230) for controlling the sensors (210, 220) and/or analysing sensor data obtained by the sensors (210, 220), where the sensors (210, 220) can be connected to the processing unit (230) via the interface device (100).According to the invention, the interface device (100) is able to accommodate simultaneously at least two sensor interface units (110, 120) for connecting to the sensors (210, 220), where each sensor interface unit (110, 120) can be selected from a plurality of sensor interface units, which differ at least by a different number of sensor channels.
    • 本发明涉及一种用于电子传感器系统(200)的接口装置(100),包括多个传感器(210,220)和用于控制传感器(210,220)和/或分析传感器数据的处理单元(230) 由所述传感器(210,220)获得,其中所述传感器(210,220)可以经由所述接口装置(100)连接到所述处理单元(230)。 根据本发明,接口装置(100)能够同时容纳用于连接到传感器(210,220)的至少两个传感器接口单元(110,120),其中每个传感器接口单元(110,120)可以是 从多个不同数量的传感器通道不同的传感器接口单元中选择。
    • 5. 发明授权
    • Process and arrangement for the measurement of physical values of light
scattering moving particles by means of a laser doppler anemometer
    • 通过激光多普勒风速计测量光散射运动颗粒的物理值的过程和布置
    • US5781283A
    • 1998-07-14
    • US644334
    • 1996-05-10
    • Ehrhard DammannJuergen Bauer
    • Ehrhard DammannJuergen Bauer
    • G01P3/36G01P5/00G01P5/26G01P15/093G01P21/02G01S17/58
    • G01P15/093G01P5/26
    • A process is provided for measuring physical values of light-scattering moving particles by means of laser Doppler anemometry and to a corresponding laser Doppler anemometer (LDA) with phase modulation. Generating a moving intensity-modulated superimposition signal in the measured volume of a LDA which is based on an uncomplicated driving of the phase modulator is achieved by having the phase modulator being driven by two sinusoidal driving signals with different frequencies (.omega..sub.1, .omega..sub.2) which are coupled so as to be fixed with respect to phase and frequency and wherein one frequency (.omega..sub.2) is an integer multiple of the other frequency (.omega..sub.1), and a filter frequency (f.sub.F) which is a common multiple of the two frequencies (.omega..sub.1, .omega..sub.2) is filtered out from the output signal of the receiver by a bandpass filter. For this purpose, one of two sidebands occurring in the output signal of the receiver is suppressed by the appropriate amplitude adjustment of the driving signals at the phase modulator. The process and related arrangement are used for measuring velocity in flowing media and for measurements of length and acceleration of solid surfaces.
    • 提供了一种用于通过激光多普勒血流计测量光散射移动颗粒的物理值的方法以及具有相位调制的相应的激光多普勒风速计(LDA)。 通过使相位调制器由具有不同频率(ω1,ω2)的两个正弦驱动信号驱动来实现基于相位调制器的不复杂驱动的LDA测量体积中的移动强度调制叠加信号, 其被耦合以相对于相位和频率被固定,并且其中一个频率(ω2)是另一个频率(ω1)的整数倍,并且滤波器频率(fF)是两者的公倍数 通过带通滤波器从接收器的输出信号中滤出频率(ω1,ω2)。 为此,通过在相位调制器处的驱动信号的适当幅度调整来抑制发生在接收器的输出信号中的两个边带之一。 该过程和相关布置用于测量流动介质中的速度和用于测量固体表面的长度和加速度。
    • 6. 发明授权
    • Multiple control frequency phase modulator in phase modulated
interferometer precision distance measuring system
    • 相位调制干涉仪精密测距系统中的多控制频率相位调制器
    • US5459571A
    • 1995-10-17
    • US189931
    • 1994-02-01
    • Ehrhard DammannJuergen Bauer
    • Ehrhard DammannJuergen Bauer
    • G01B9/02G01J1/44G01J9/02G01J9/04
    • G01B9/02051G01B9/0201G01B9/02028G01B9/02083G01J9/02G01B2290/45G01J2001/4242G01J2009/0249G01J9/04
    • A phase-modulated interferometer has improved control and signal processing. Superimposition signals capable of evaluation in a phase-modulated interferometer without a complicated sawtooth control of the phase modulator are attained, in that two sinusoidal control signals which have modulation frequencies (.omega..sub.1, .omega..sub.2) and are rigidly coupled with respect to phase and frequency are applied to the known phase modulator and a cosine signal which is used in a conventional manner for evaluating the phase displacement is filtered of the superimposition signal generated in the interferometer by an electronic bandpass filter. At the filter frequency (.omega..sub.F) of the bandpass filter, an odd-number harmonic and an even-number harmonic of the two modulation frequencies (.omega..sub.1, .omega..sub.2) have the same frequency, when the amplitudes (.phi..sub.1, .phi..sub.2) of the control signals satisfy the condition for the suitable operating point of the phase modulator. The improvement has application to phase-modulated interferometers, in particular, for precision distance measuring devices, preferably by the heterodyne evaluating method.
    • 相位调制干涉仪具有改进的控制和信号处理。 获得能够在相位调制干涉仪中进行评估的叠加信号,无需对相位调制器进行复杂的锯齿控制,因为具有调制频率(ω1,ω2)并相对于相位和频率刚性耦合的两个正弦控制信号 应用于已知的相位调制器,并且以传统方式用于评估相位位移的余弦信号通过电子带通滤波器对在干涉仪中产生的叠加信号进行滤波。 在带通滤波器的滤波器频率(ω-F)下,两个调制频率(ω1,ω2)的奇数谐波和偶数谐波具有相同的频率,当幅度(phi 1,phi 2 )的控制信号满足相位调制器的合适工作点的条件。 该改进适用于相位调制干涉仪,特别是用于精密距离测量装置,优选地通过外差评估方法。
    • 9. 发明授权
    • Interface device with integrated sensor interface units for an electronic sensor system
    • 具有用于电子传感器系统的集成传感器接口单元的接口设备
    • US08805549B2
    • 2014-08-12
    • US12305021
    • 2007-06-29
    • Anton LillJuergen Bauer
    • Anton LillJuergen Bauer
    • G05B19/02G01D21/00
    • G01D21/00G05B19/02
    • The invention relates to an interface device (100) for an electronic sensor system (200) comprising a plurality of sensors (210, 220) and a processing unit (230) for controlling the sensors (210, 220) and/or analyzing sensor data obtained by the sensors (210, 220), where the sensors (210, 220) can be connected to the processing unit (230) via the interface device (100).According to the invention, the interface device (100) is able to accommodate simultaneously at least two sensor interface units (110, 120) for connecting to the sensors (210, 220), where each sensor interface unit (110, 120) can be selected from a plurality of sensor interface units, which differ at least by a different number of sensor channels.
    • 本发明涉及一种用于电子传感器系统(200)的接口装置(100),包括多个传感器(210,220)和用于控制传感器(210,220)和/或分析传感器数据的处理单元(230) 由所述传感器(210,220)获得,其中所述传感器(210,220)可以经由所述接口装置(100)连接到所述处理单元(230)。 根据本发明,接口装置(100)能够同时容纳用于连接到传感器(210,220)的至少两个传感器接口单元(110,120),其中每个传感器接口单元(110,120)可以是 从多个不同数量的传感器通道不同的传感器接口单元中选择。