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    • 4. 发明申请
    • ROTARY SENSOR ARRANGEMENT AND METHOD FOR DETERMINING A FAILURE STATUS OF SUCH ARRANGEMENT
    • 旋转传感器布置和确定此类布置故障状态的方法
    • WO2018073072A1
    • 2018-04-26
    • PCT/EP2017/075950
    • 2017-10-11
    • AMS AG
    • RIEDMÜLLER, KurtSABATELLI, Simone
    • G01D5/244
    • A rotary sensor arrangement is configured to be used with a rotatable magnetic source and comprises a first and a second pair of magnetic field sensors, each pair arranged symmetrically with respect to rotation axes and providing respective sensor values. An evaluation unit determines a first sum value corresponding to a sum of the sensor values of the first pair, and a second sum value corresponding to a sum of the sensor values of the second pair. The evaluation unit further determines a difference value (F) corresponding to a difference between the first and the second sum value and compares the difference value (F) or a value derived thereof to a threshold value. Based on the comparison result, it is determined whether a failure status of the sensor arrangement is present.
    • 旋转传感器装置被配置为与可旋转磁源一起使用,并且包括第一和第二对磁场传感器,每对磁场传感器相对于旋转轴线对称布置并且提供相应的传感器值。 评估单元确定与第一对的传感器值的总和相对应的第一总和值以及与第二对的传感器值的总和相对应的第二总和值。 评估单元进一步确定与第一和第二总和值之间的差相对应的差值(F),并将差值(F)或从其导出的值与阈值进行比较。 根据比较结果,确定传感器装置的故障状态是否存在。
    • 5. 发明申请
    • OPTICAL SENSOR DEVICE
    • 光学传感器装置
    • WO2017211648A1
    • 2017-12-14
    • PCT/EP2017/063202
    • 2017-05-31
    • AMS INTERNATIONAL AG
    • MEHRL, DavidCHESLER, TroyDIERSCHKE, PH.D., Eugene G.
    • G01J1/42G01J1/06G01J1/02G01S3/786
    • G01J1/0266G01J1/06G01J1/42G01J1/4204G01J1/429G01J2001/4266G01S3/783G01S3/7861
    • An optical sensor device comprises a first (10) and a second (15) optical sensor arrangement. In the first optical sensor arrangement (10) at least one optical sensor structure (11) measures the incidence angle of incoming light(θ)that is approximately on the main beam axis (20) of a light source (22). The second optical sensor arrangement (15) comprises at least one optical sensor structure (16) with at least one optical sensor (24), at least two metal layers (43,44) and opaque walls (26) optically isolating the optical sensor (24). An evaluation circuit(14) provides an output signal (46)of the second optical sensor arrangement (15) under the condition that the incidence angle (θ)measured by the first optical sensor arrangement (10) lies within a set interval.
    • 光学传感器装置包括第一(10)和第二(15)光学传感器装置。 在第一光学传感器装置(10)中,至少一个光学传感器结构(11)测量近似位于光源(22)的主光束轴(20)上的入射光(θ)的入射角。 第二光学传感器装置(15)包括具有至少一个光学传感器(24),至少两个金属层(43,44)和不透明壁(26)的至少一个光学传感器结构(16),光学传感器(16) 24)。 在由第一光学传感器装置(10)测量的入射角(θ)处于设定间隔内的条件下,评估电路(14)提供第二光学传感器装置(15)的输出信号(46) p>
    • 6. 发明申请
    • OPTICAL HYBRID LENS AND METHOD FOR PRODUCING AN OPTICAL HYBRID LENS
    • 光学混合镜片和用于制造光学混合镜片的方法
    • WO2017001508A1
    • 2017-01-05
    • PCT/EP2016/065187
    • 2016-06-29
    • AMS AG
    • ELSINGER, Lukas
    • G02B27/42G02B5/18
    • G02B27/4211G02B5/1809G02B5/1814G02B5/1895
    • An optical hybrid lens (100) comprises a substrate (300) having a first surface (301) and a second surface (302) opposite the first surface (301). A sub-wavelength grating lens (200) is disposed on the first surface (301) and comprises a plurality of posts (210, 211, 212, 213, 215, 216). The plurality of posts (210, 211, 212, 213, 215, 216) is arranged on the first surface (301) and the posts extend from the first surface (301). A refractive lens (400) is arranged on the sub-wavelength grating lens (200) at least partly enclosing the plurality of posts (210, 211, 212, 213, 215, 216). Alternatively, the refractive lens (400) is arranged on the second surface (302).
    • 光学混合透镜(100)包括具有第一表面(301)和与第一表面(301)相对的第二表面(302)的基底(300)。 亚波长光栅透镜(200)设置在第一表面(301)上并且包括多个柱(210,211,212,213,215,216)。 多个柱(210,211,212,213,215,216)布置在第一表面(301)上并且柱从第一表面(301)延伸。 折射透镜(400)布置在亚波长光栅透镜(200)上,至少部分地包围多个柱(210,211,212,213,215,216)。 或者,折射透镜(400)布置在第二表面(302)上。
    • 8. 发明申请
    • LIGHTING CONTROL SYSTEM AND METHOD FOR GENERATING SUPPLY CURRENTS FOR LED CHANNELS
    • 照明控制系统和用于生成LED通道供电电流的方法
    • WO2016156044A1
    • 2016-10-06
    • PCT/EP2016/055680
    • 2016-03-16
    • AMS AG
    • GAMPERL, DavidPAURITSCH, ManfredTRUPPE, Herbert
    • H05B33/08H05B37/02
    • H05B33/0809H05B37/0281Y02B20/42
    • A lighting control system (LCS) for generating supply currents for at least two LED channels (CH1, CH2, CHn) comprises at least two controlled current sources for generating a supply current for a corresponding LED channel based on a corresponding control signal. The system further comprises at least two signal combiners for generating the corresponding control signals based on a synchronization signal (VSYNC) that comprises periodic starting pulses and on a combination of a magnitude dimming signal and a pulse dimming signal corresponding to one of the LED channels. The signal combiners are designed such that changes of the respective control signals come into effect only with a respective time offset with respect to one of the starting pulses of the synchronization signal.
    • 用于产生用于至少两个LED通道(CH1,CH2,CHn)的电源电流的照明控制系统(LCS)包括至少两个受控电流源,用于基于相应的控制信号产生对应的LED通道的电源电流。 该系统还包括至少两个信号组合器,用于基于包括周期性起始脉冲的同步信号(VSYNC)以及对应于一个LED通道的幅度调光信号和脉冲调光信号的组合来产生相应的控制信号。 信号组合器被设计成使得相应的控制信号的变化仅对相对于同步信号的起始脉冲之一的相应时间偏移量起作用。