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    • 1. 发明授权
    • System connector with adapter module
    • 具有适配器模块的系统连接器
    • US08292676B2
    • 2012-10-23
    • US13063576
    • 2009-12-09
    • Martin SchmidtDieter RiepeHarald MoellerSebastian Griepenstroh
    • Martin SchmidtDieter RiepeHarald MoellerSebastian Griepenstroh
    • H01R13/502
    • H01R13/518H01R13/111H01R13/465H01R13/506H01R13/514H01R13/6275H01R31/06H01R31/08
    • A system connector includes a first housing half, and a second housing half matching the first housing half. The two housing halves are snappable and lockable to each other via a locking device, and there is at least one contact module arranged in each of the housing halves. The contact module includes socket-like and/or pin-like electrical contact elements. An adapter module that is mountable on the contact module has a first connection side and a second connection side, each of which includes cylindrical adapter elements arranged in a row, in which socket contacts or pin contacts are arranged. The adapter module on its first connection side is connectable to one of the contact modules arranged within one of the housing halves. The socket contacts or pin contacts of the adapter element of the second connection side are suitable for electrical contacting of the contact modules of the matching housing halves.
    • 系统连接器包括第一壳体半部和与第一壳体半部匹配的第二壳体半部。 两个壳体半部可通过锁定装置相互锁定并相互锁定,并且至少一个触点模块布置在每个壳体半部中。 接触模块包括插座状和/或销状电接触元件。 可安装在接触模块上的适配器模块具有第一连接侧和第二连接侧,每个连接侧和第二连接侧均包括排列成一排的圆柱形适配器元件,其中布置有插座触点或引脚触点。 其第一连接侧上的适配器模块可连接到布置在外壳半部之一内的一个触点模块。 第二连接侧的适配器元件的插座触点或插针触头适用于匹配壳体半部的触头模块的电接触。
    • 2. 发明申请
    • SYSTEM CONNECTOR WITH ADAPTER MODULE
    • 具有适配器模块的系统连接器
    • US20110217880A1
    • 2011-09-08
    • US13063576
    • 2009-12-09
    • Martin SchmidtDieter RiepeHarald MoellerSebastian Griepenstroh
    • Martin SchmidtDieter RiepeHarald MoellerSebastian Griepenstroh
    • H01R24/00
    • H01R13/518H01R13/111H01R13/465H01R13/506H01R13/514H01R13/6275H01R31/06H01R31/08
    • System connector (1) consisting of a first housing half (2) and a second housing half (10) matching it, the two housing halves (2, 10) being snappable and lockable to each other via a locking device (40, 41, 42) and in which at least one contact module (3, 11) is arranged in both housing halves (2, 10), which includes socket-like and/or pin-like electrical contact elements (3a, 11a), characterized by the fact that an adapter module (20) can be mounted on the contact module (3, 11), which has a first connection side (20a) and a second connection side (20b), each of which includes cylindrical adapter elements (21) arranged in a row, in which socket contacts or pin contacts arc arranged, that the adapter module (20) on its first connection side (20a) can be connected to at least one contact module (3, 11), which is arranged within one of the housing halves (2, 10), and that the socket contacts or pin contacts of the adapter element (20) of the second connection side (20b) are suitable for electrical contacting of the contact modules of the matching housing halves (2, 10).
    • 系统连接器(1)由第一壳体半部(2)和与其匹配的第二壳体半部(10)组成,两个壳体半部(2,10)可通过锁定装置(40,41, 42),并且其中至少一个接触模块(3,11)布置在包括插座状和/或销状电接触元件(3a,11a)的两个壳体半部(2,10)中,其特征在于, 事实上,适配器模块(20)可以安装在具有第一连接侧(20a)和第二连接侧(20b)的接触模块(3,11)上,每一个包括圆柱形适配器元件(21) 在其中插座触点或引脚触点弧形布置的第一连接侧(20a)上的适配器模块(20)可以连接到至少一个接触模块(3,11),该至少一个触点模块(3,11)被布置在 所述壳体半部(2,10),并且所述第二连接侧(20b)的所述适配器元件(20)的所述插座触点或针式触头适于 匹配壳体半部(2,10)的触头模块的电接触。
    • 3. 发明授权
    • Method and device for magnetic resonance spectroscopic imaging
    • 用于磁共振光谱成像的方法和装置
    • US09234953B2
    • 2016-01-12
    • US13522696
    • 2010-01-18
    • Christian LabadieStefan HetzerToralf MildnerHarald Moeller
    • Christian LabadieStefan HetzerToralf MildnerHarald Moeller
    • G01R33/56G01R33/34G01R33/485G01R33/48G01R33/561
    • G01R33/485G01R33/4818G01R33/482G01R33/5611G01R33/5616
    • A method of magnetic resonance spectroscopic imaging of an object (O) including at least one chemical species to be imaged, comprising sampling of the k-space such that a plurality of Nω first sampling trajectories through at least one k-space segment of the k-space is formed along a phase-encoding direction, each of said first sampling trajectories beginning in a central k-space region and continuing to a k-space border of the at least one k-space segment and having a duration equal to or below a spectral dwell time corresponding to the reciprocal spectral bandwidth, collecting at least one first set of gradient-echo signals obtained along the first sampling trajectories, collecting at least one second set of gradient-echo signals obtained along a plurality of Nω second sampling trajectories, the Nω second sampling trajectories and the Nω first sampling trajectories being mutually mirrored relative to a predetermined k-space line in the central k-space region.
    • 包括至少一种待成像化学物质的物体(O)的磁共振光谱成像方法,包括k空间的采样,使得多个Nω第一采样轨迹通过k的至少一个k空间段 - 空间沿着相位编码方向形成,所述第一采样轨迹中的每一个从中心k空间区域开始并且连续至少一个k空间段的k空间边界并具有等于或低于 收集对应于所述倒数光谱带宽的光谱驻留时间,收集沿着所述第一采样轨迹获得的至少一个第一梯度回波信号集合,收集沿着多个Nω第二采样轨迹获得的至少一个第二组梯度回波信号, Nω第二采样轨迹和Nω第一采样轨迹相对于中心k空间区域中的预定k空间线相互镜像。
    • 4. 发明申请
    • STRIPLINE ANTENNA AND ANTENNA ARRAY FOR A MAGNETIC RESONANCE DEVICE
    • 用于磁共振装置的条纹天线和天线阵列
    • US20100213941A1
    • 2010-08-26
    • US12678638
    • 2008-09-19
    • Wolfgang DrieselHarald Moeller
    • Wolfgang DrieselHarald Moeller
    • G01R33/34
    • G01R33/345G01R33/3415G01R33/3453G01R33/3635G01R33/5659
    • An antenna (100) for a magnetic resonance device has a predetermined sensitivity and is designed to excite and/or detect a magnetic resonance in an object under test. The antenna (100) includes a stripline resonator (10) that is equipped with at least one stripline (11), and a conductor loop arrangement (20) that adjoins the stripline resonator (10) and forms at least one conductor loop (21, 22, 28) which is interrupted by at least one capacitor (23). The sensitivity of the antenna (100) is formed by overlapping sensitivity profiles of the stripline resonator (10) and the conductor loop arrangement (20). Also described are an antenna array (200) including a plurality of antennas (100), a magnetic resonance device (300) including at least one antenna (100) or antenna array (200), and methods for magnetic resonance imaging or magnetic resonance spectroscopy.
    • 用于磁共振装置的天线(100)具有预定的灵敏度,并被设计成激发和/或检测被测物体中的磁共振。 天线(100)包括配备有至少一个带状线(11)的带状线谐振器(10)和邻接带状线谐振器(10)并形成至少一个导体环路(21)的导体环路装置(20) 22,28),其被至少一个电容器(23)中断。 天线(100)的灵敏度由带状线谐振器(10)和导体环路装置(20)的重叠灵敏度分布形成。 还描述了包括多个天线(100),包括至少一个天线(100)或天线阵列(200)的磁共振装置(300)的天线阵列(200),以及用于磁共振成像或磁共振波谱 。
    • 5. 发明授权
    • Stripline antenna and antenna array for a magnetic resonance device
    • 用于磁共振装置的带状天线和天线阵列
    • US08581588B2
    • 2013-11-12
    • US12678638
    • 2008-09-19
    • Wolfgang DrieselHarald Moeller
    • Wolfgang DrieselHarald Moeller
    • G01V3/00G01R33/48
    • G01R33/345G01R33/3415G01R33/3453G01R33/3635G01R33/5659
    • An antenna (100) for a magnetic resonance device has a predetermined sensitivity and is designed to excite and/or detect a magnetic resonance in an object under test. The antenna (100) includes a stripline resonator (10) that is equipped with at least one stripline (11), and a conductor loop arrangement (20) that adjoins the stripline resonator (10) and forms at least one conductor loop (21, 22, 28) which is interrupted by at least one capacitor (23). The sensitivity of the antenna (100) is formed by overlapping sensitivity profiles of the stripline resonator (10) and the conductor loop arrangement (20). Also described are an antenna array (200) including a plurality of antennas (100), a magnetic resonance device (300) including at least one antenna (100) or antenna array (200), and methods for magnetic resonance imaging or magnetic resonance spectroscopy.
    • 用于磁共振装置的天线(100)具有预定的灵敏度,并被设计成激发和/或检测被测物体中的磁共振。 天线(100)包括配备有至少一个带状线(11)的带状线谐振器(10)和与带状线谐振器(10)相邻并形成至少一个导体环路(21)的导体环路装置(20) 22,28),其被至少一个电容器(23)中断。 天线(100)的灵敏度由带状线谐振器(10)和导体环路装置(20)的重叠灵敏度分布形成。 还描述了包括多个天线(100),包括至少一个天线(100)或天线阵列(200)的磁共振装置(300)的天线阵列(200),以及用于磁共振成像或磁共振波谱 。
    • 7. 发明申请
    • MAGNETIC RESONANCE IMAGING WITH IMPROVED IMAGING CONTRAST
    • 具有改进成像对比度的磁共振成像
    • US20120013336A1
    • 2012-01-19
    • US13257091
    • 2009-03-31
    • Stefan HetzerToralf MildnerHarald Moeller
    • Stefan HetzerToralf MildnerHarald Moeller
    • G01R33/54G01R33/28
    • G01R33/5616G01R33/4806G01R33/4818G01R33/482G01R33/4828G01R33/483G01R33/485G01R33/5607G01R33/56341G01R33/56366G01R33/56536G01R33/56554G01R33/56563
    • A method of magnetic resonance imaging of an object comprises the steps of arranging the object in a stationary magnetic field, subjecting the object to an excitation and encoding sequence of magnetic field gradients resulting in k-space sampling in two segments along the phase encoding direction, wherein the encoding sequence of the magnetic field gradients is selected such that the two segments in k-space are sampled along trajectories beginning with a central k-space line through the k-space center and continuing to opposite k-space borders of the two segments, collecting magnetic resonance signals created in the object, and reconstructing an image of the object based on the magnetic resonance signals, wherein one central k-space line is sampled in both of the two k-space segments, and intersegment phase and/or intensity deviations are corrected in both k-space segments using the magnetic resonance signals collected along the central k-space line. Furthermore, an imaging device for magnetic resonance imaging of an object is described.
    • 物体的磁共振成像的方法包括以下步骤:将物体放置在固定磁场中,使物体受到磁场梯度的激励和编码序列的影响,导致沿着相位编码方向的两段中的k空间采样, 其中选择磁场梯度的编码序列使得k空间中的两个片段沿着通过k空间中心的中心k空间线开始的轨迹被采样,并且连续到两个片段的相反k空间边界 收集在物体中产生的磁共振信号,以及基于磁共振信号重建物体的图像,其中一个中心k空间线在两个k空间段中的两个采样,并且分段相位和/或强度 使用沿着中心k空间线收集的磁共振信号在两个k空间段中校正偏差。 此外,描述了用于物体的磁共振成像的成像装置。
    • 8. 发明申请
    • HF antenna system for magnetic resonance measurements
    • 用于磁共振测量的HF天线系统
    • US20090096553A1
    • 2009-04-16
    • US11659299
    • 2005-08-04
    • Wolfgang DrieselToralf MildnerHarald Moeller
    • Wolfgang DrieselToralf MildnerHarald Moeller
    • G01R33/34H01P7/00
    • G01R33/345G01R33/34046G01R33/341G01R33/3678
    • The invention relates to an HF-antenna system for carrying out and/or detecting a magnetic resonance in an object exposed to a main magnetic field which orients the object spins in a desired longitudinal direction (z) comprising at least one first antenna element (1) provided with several conducting sections (11, 12, 13, 14) which lead a high-frequency alternating current and extend from the common top to a base area in the form of separate claws in such a way that the testable object containing a volume of interest is enveloped in a helmet manner. Said invention is characterized in that each conducting section (11, 12, 13, 14) is embodied in the form of a HF (HL) line for electromagnetically connecting a wave propagating in a TEM mode or in an quasi-TEM mode with the spins of the testable object to be enveloped and the electrical length the terminals of the HF (HL) lines are selected in such a way that the magnetic resonance frequency waves are produced therein.
    • 本发明涉及一种用于在暴露于主磁场的物体中执行和/或检测磁共振的HF天线系统,该主磁场定向在包括至少一个第一天线元件(1)的所需纵向方向(z)上的物体旋转 ),其设置有多个导电部分(11,12,13,14),其引导高频交流电流并以分开的爪的形式从公共顶部延伸到基部区域,使得可测试物体包含体积 感兴趣的是以头盔的方式包围。 本发明的特征在于,每个导电部分(11,12,13,14)体现为HF(HL)线的形式,用于将以TEM模式或准TEM模式传播的波与旋转电磁连接 的可测试对象被包围,并且电气长度选择HF(HL)线路的端子,使得其中产生磁共振频率波。
    • 9. 发明授权
    • Magnetic resonance imaging with improved imaging contrast
    • 磁共振成像具有改善的成像对比度
    • US08664954B2
    • 2014-03-04
    • US13257091
    • 2009-03-31
    • Stefan HetzerToralf MildnerHarald Moeller
    • Stefan HetzerToralf MildnerHarald Moeller
    • G01V3/00
    • G01R33/5616G01R33/4806G01R33/4818G01R33/482G01R33/4828G01R33/483G01R33/485G01R33/5607G01R33/56341G01R33/56366G01R33/56536G01R33/56554G01R33/56563
    • A method of magnetic resonance imaging of an object comprises the steps of arranging the object in a stationary magnetic field, subjecting the object to an excitation and encoding sequence of magnetic field gradients resulting in k-space sampling in two segments along the phase encoding direction, wherein the encoding sequence of the magnetic field gradients is selected such that the two segments in k-space are sampled along trajectories beginning with a central k-space line through the k-space center and continuing to opposite k-space borders of the two segments, collecting magnetic resonance signals created in the object, and reconstructing an image of the object based on the magnetic resonance signals, wherein one central k-space line is sampled in both of the two k-space segments, and intersegment phase and/or intensity deviations are corrected in both k-space segments using the magnetic resonance signals collected along the central k-space line. Furthermore, an imaging device for magnetic resonance imaging of an object is described.
    • 物体的磁共振成像的方法包括以下步骤:将物体放置在固定磁场中,使物体受到磁场梯度的激励和编码序列的影响,导致沿着相位编码方向的两段中的k空间采样, 其中选择磁场梯度的编码序列使得k空间中的两个片段沿着通过k空间中心的中心k空间线开始的轨迹被采样,并且连续到两个片段的相反k空间边界 收集在物体中产生的磁共振信号,以及基于磁共振信号重建物体的图像,其中一个中心k空间线在两个k空间段中的两个采样,并且分段相位和/或强度 使用沿着中心k空间线收集的磁共振信号在两个k空间段中校正偏差。 此外,描述了用于物体的磁共振成像的成像装置。