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    • 2. 发明申请
    • DEVICE, METHOD, COMPUTER PROGRAMME AND SYSTEM FOR DETECTING IF AN OBJECT OR A PERSON CROSSES A LIMIT MARKED BY A MAGNETIC FIELD
    • 设备,方法,计算机程序和系统,用于检测如果对象或人员跨越由磁场标记的限制
    • US20100321185A1
    • 2010-12-23
    • US12738274
    • 2008-10-15
    • Josef BernhardThomas Leipold
    • Josef BernhardThomas Leipold
    • G08B13/24
    • B62B5/0423G07C9/00111G08B13/2454
    • A device for recognizing when an object or a person crosses a threshold that is marked by a magnetic field comprises a first magnetic field sensor that is designed to detect a first magnetic field component of the magnetic alternating field and to deliver an associated magnetic field sensor signal. The device comprises a second magnetic field sensor that is designed to detect a second magnetic field component of the alternating magnetic field. The device also comprises an evaluator that is designed to deliver information in response to a change in a phase relationship between the magnetic field sensor signal delivered by the first magnetic field sensor and a reference signal based on the detection of the second magnetic field component by the second magnetic field sensor, said information indicating that the object or person has crossed the marked threshold.
    • 用于识别物体或人物何时越过由磁场标记的阈值的装置包括被设计成检测磁交变场的第一磁场分量并传送相关联的磁场传感器信号的第一磁场传感器 。 该装置包括被设计成检测交变磁场的第二磁场分量的第二磁场传感器。 该装置还包括评估器,其被设计为响应于由第一磁场传感器传递的磁场传感器信号与参考信号之间的相位关系的改变而传递信息,该基准信号基于第二磁场分量的检测 第二磁场传感器,所述信息指示对象或人已经越过标记的阈值。
    • 4. 发明授权
    • Inbred maize line PH3AV
    • 近交玉米品系PH3AV
    • US07321083B1
    • 2008-01-22
    • US10741262
    • 2003-12-19
    • Hartwig Josef Bernhard Wehrmann
    • Hartwig Josef Bernhard Wehrmann
    • A01H5/10A01H5/00A01H1/00C12N5/04
    • A01H5/10
    • An inbred maize line, designated PH3AV, the plants and seeds of inbred maize line PH3AV, methods for producing a maize plant, either inbred or hybrid, produced by crossing the inbred maize line PH3AV with itself or with another maize plant, and hybrid maize seeds and plants produced by crossing the inbred line PH3AV with another maize line or plant and to methods for producing a maize plant containing in its genetic material one or more transgenes and to the transgenic maize plants produced by that method. This invention also relates to inbred maize lines derived from inbred maize line PH3AV, to methods for producing other inbred maize lines derived from inbred maize line PH3AV and to the inbred maize lines derived by the use of those methods.
    • 称为PH3AV的近交玉米品系,近交玉米品系PH3AV的植物和种子,通过将近交玉米品系PH3AV与其他玉米植物杂交而产生的近交系或杂种的玉米植物的生产方法和杂交玉米种子 以及通过使自交系PH3AV与另一种玉米品系或植物杂交而产生的植物以及用于生产含有其一种或多种转基因的遗传物质的玉米植物和通过该方法生产的转基因玉米植物的方法。 本发明还涉及来源于近交玉米品系PH3AV的近交玉米品系,以及用于生产源自近交玉米品系PH3AV的其他近交玉米品系的方法以及通过使用这些方法得到的近交玉米品系。
    • 5. 发明授权
    • Contactless measurement of the stress of rotating parts
    • 非接触式测量旋转部件的应力
    • US07043999B2
    • 2006-05-16
    • US10486590
    • 2002-08-09
    • Josef BernhardJoachim HeringRainer WanschSven GempperWolfram Strauss
    • Josef BernhardJoachim HeringRainer WanschSven GempperWolfram Strauss
    • G01N29/04
    • G01L5/0009G01L3/10
    • The invention relates to a method for measuring mechanical stresses of a rotating part (1) in an essentially closed metal housing. The rotating part comprises a sensor (2) which reflects electromagnetic waves and which can be measurably deformed as a result of a mechanical stress exerted on said rotating part (1) The two antennas (A1, A2) receiving the reflected signals of the sensor (2) are arranged in the bearing housing (10) in such a way that they cannot rotate in relation to the sensor and are distanced (α). Said antennas emit receiving signals (a1,a2) which are sent to an electronic evaluation system (20,21) which measures the mechanical stresses of the rotating part (1) on the basis of both receiving signals (a1,a2).
    • 本发明涉及一种用于测量基本上封闭的金属外壳中的旋转部件(1)的机械应力的方法。 旋转部件包括反射电磁波的传感器(2),并且由于施加在所述旋转部件(1)上的机械应力而可测量地变形。两个天线(A 1,A 2)接收 传感器(2)以这样的方式布置在轴承壳体(10)中,使得它们不能相对于传感器旋转并且是距离(α)。 所述天线发射接收信号(a 1,a 2),其发送到电子评估系统(20,21),该电子评估系统基于两个接收信号(a 1,a 2)测量旋转部分(1)的机械应力 )。
    • 7. 发明授权
    • RFID transponder, in particular for assembly on metal and manufacturing method therefor
    • RFID应答器,特别是用于组装金属及其制造方法
    • US08576124B2
    • 2013-11-05
    • US12801258
    • 2010-05-28
    • Alexander PopugaevRalner WanschJosef BernhardAlexander Pflaum
    • Alexander PopugaevRalner WanschJosef BernhardAlexander Pflaum
    • H01Q1/38H01Q7/00
    • G06K19/07749H01Q1/2208H01Q1/2225H01Q1/38H01Q7/00
    • An RFID transponder including an antenna, a chip having at least one transmission and reception circuit as well as a memory, a dielectric carrier element which is covered on a first surface with a structured first metallization and which is covered on a second surface disposed opposite the first surface with a second metallization. The first and second metallizations are mutually electrically conductively connected, thereby forming the antenna. The first metallization is structured such that it forms two electric terminals of the antenna arranged on the first surface of the dielectric carrier element. The chip can be or is electrically contacted via these two terminals. An adaptation network is at least partly formed by the structuring of the first metallization and adapting the input impedance of the antenna in a conjugate complex manner to the impedance of the chip.
    • 一种包括天线的RFID应答器,具有至少一个发送和接收电路以及存储器的芯片,介电载体元件,其被覆盖在具有结构化的第一金属化的第一表面上,并且被覆盖在与第一表面相对设置的第二表面上 第一表面具有第二金属化。 第一和第二金属化层相互导电连接,从而形成天线。 第一金属化被构造成使得它形成布置在电介质载体元件的第一表面上的天线的两个电端子。 芯片可以通过这两个端子被电接触。 至少部分地通过构造第一金属化形成自适应网络,并以共轭复合方式将天线的输入阻抗调整到芯片的阻抗。
    • 9. 发明申请
    • RFID transponder, in particular for assembly on metal and manufacturing method therefor
    • RFID应答器,特别是用于组装金属及其制造方法
    • US20110025471A1
    • 2011-02-03
    • US12801258
    • 2010-05-28
    • Alexander PopugaevRalner WanschJosef BernhardAlexander Pflaum
    • Alexander PopugaevRalner WanschJosef BernhardAlexander Pflaum
    • H04Q5/22G06K19/077H05K13/00
    • G06K19/07749H01Q1/2208H01Q1/2225H01Q1/38H01Q7/00
    • The invention relates to an RFID transponder comprising: an antenna, a chip comprising at least one transmission and reception circuit as well as a memory, a dielectric carrier element which is covered on a first surface at least sectionally with a structured first metallization and which is covered on a second surface disposed opposite the first surface at least sectionally with a second metallization, wherein the first and second metallizations are mutually electrically conductively connected, thereby forming the antenna, wherein the first metallization is structured such that it forms two electric terminals of the antenna arranged on the first surface of the dielectric carrier element, and wherein the chip can be or is electrically contacted via these two terminals and is positionable or arranged on the first surface and/or is positionable or arranged at least sectionally integrated into this surface, and an adaptation network at least partly formed by the structuring of the first metallization and adapting the input impedance of the antenna in a conjugate complex manner to the impedance of the chip.
    • 本发明涉及一种RFID应答器,其包括:天线,包括至少一个发送和接收电路以及存储器的芯片,电介质载体元件,其至少部分地被覆盖在第一表面上并且具有结构化的第一金属化, 覆盖在与第一表面相对设置的第二表面上,至少部分地具有第二金属化,其中第一和第二金属化层相互导电连接,从而形成天线,其中第一金属化构造成使得其形成两个电极 布置在电介质载体元件的第一表面上的天线,并且其中芯片可以经由这两个端子或与之电接触,并且可定位或布置在第一表面上和/或可定位或布置成至少部分地集成到该表面中, 以及至少部分地由第一m的构造形成的适配网络 使天线的输入阻抗以共轭复合方式适应于芯片的阻抗。