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    • 3. 发明授权
    • Magnetic resonance local coil arrangement and method for communicating an overload occurrence
    • 磁共振局部线圈布置和传递过载事件的方法
    • US07696754B2
    • 2010-04-13
    • US12137723
    • 2008-06-12
    • Helmut Kess
    • Helmut Kess
    • G01V3/00
    • G01R33/3692G01R33/288G01R33/341G01R33/3657
    • A local coil arrangement for magnetic resonance applications has an acquisition coil for acquisition of a magnetic resonance signal excited in an examination subject by means of a transmission coil; and a transponder. The transponder is coupled to the acquisition coil such that it can be fed with electrical energy via the acquisition coil The transponder is fashioned to send a transponder signal on a transponder frequency when and as soon as an excitation signal induced in the acquisition coil by means of the transmission coil exceeds a threshold. When the control device receives the transponder signal, it adjusts the further operation of the transmission antenna or operates it only with reduced power.
    • 用于磁共振应用的本地线圈装置具有采集线圈,用于通过传输线圈获取在检查对象中激发的磁共振信号; 和转发器。 应答器耦合到采集线圈,使得其可以经由采集线圈馈送电能。应答器被设计成当应答器频率发生时,并且一旦在采集线圈中感应的激励信号通过 传输线圈超过阈值。 当控制装置接收到应答器信号时,它调整发射天线的进一步操作或仅以降低的功率进行操作。
    • 4. 发明授权
    • Nuclear magnetic resonance apparatus for the identification of spectra
or images of an examination subject
    • 用于识别检查对象的光谱或图像的核磁共振设备
    • US4801885A
    • 1989-01-31
    • US97138
    • 1987-09-16
    • Ralph MeissnerHelmut Kess
    • Ralph MeissnerHelmut Kess
    • G01R33/36G01R33/20
    • G01R33/3657G01R33/3628
    • A nuclear magnetic resonance apparatus which is capable of identifying either spectra or images of an examination subject uses a body resonator, such as a whole-body antenna, for transmitting radio frequency signals at a wave length .lambda. to induce nuclear magnetic resonance phenomena in the examination subject, and a surface coil for receiving the resulting nuclear magnetic resonance signals. For decoupling the body resonator from the surface coil, a .lambda./4 line is connected to the surface coil. A terminating end of the .lambda./4 line is short-circuited during emission of radio frequency pulses by the body resonator, and is opened during reception of nuclear magnetic resonance signals using the surface coil. An effective detuning of the body resonator is thus achieved during the reception event, and at the same time the transmission event is minimally influenced.
    • 能够识别检查对象的光谱或图像的核磁共振装置使用身体谐振器,例如全身天线,用于以波长λ传输射频信号,以在检查中引起核磁共振现象 主体和用于接收所得到的核磁共振信号的表面线圈。 为了将体谐振器与表面线圈分离,将λ/ 4线连接到表面线圈。 在通过身体谐振器发射射频脉冲期间,λ/ 4线的终端短路,并且在使用表面线圈接收核磁共振信号期间打开。 因此,在接收事件期间实现了体谐振器的有效失谐,同时传输事件受到最小的影响。
    • 9. 发明申请
    • ARRANGEMENT FOR MONITORING A SWITCHING STATE OF A SWITCH
    • 用于监控开关开关状态的安排
    • US20100060426A1
    • 2010-03-11
    • US12513427
    • 2008-04-17
    • Helmut Kess
    • Helmut Kess
    • H04Q5/22
    • H03K17/18H03K17/74
    • An arrangement for monitoring the switching state of a switch has a monitoring circuit that monitors a circuit containing a first switch. The monitoring circuit has RFID electronics and a second switch. An outlet of the RFID electronics is connected in series with an RFID antenna, and the second switch is connected to an input of the RFID electronics, such that the second switch opens or closes the monitoring circuit dependent on the switching state thereof. The first and second switches are coupled to each other so that the switching state of the second switch is controlled as a function of the switching state of the first switch, so the switching state of the second switch represents the switching state of the first switch. An RFID reading device is within range of the RFID antenna, and feeds a query signal via the RFID antenna into the monitoring circuit to determine the representative switching state of the first switch via the switching state of the second switch.
    • 用于监视开关的开关状态的装置具有监视包含第一开关的电路的监视电路。 监控电路具有RFID电子设备和第二开关。 RFID电子设备的出口与RFID天线串联连接,第二开关连接到RFID电子设备的输入端,使得第二开关根据其开关状态来打开或关闭监视电路。 第一和第二开关彼此耦合,使得第二开关的开关状态作为第一开关的开关状态的函数被控制,因此第二开关的开关状态表示第一开关的开关状态。 RFID读取装置在RFID天线的范围内,并且经由RFID天线将查询信号馈送到监视电路中,以通过第二开关的切换状态确定第一开关的代表性切换状态。
    • 10. 发明申请
    • MAGNETIC RESONANCE RF TRANSMISSION ARRANGEMENT AND METHOD WITH COMMONLY FED LABELING AND EXCITATION ANTENNAS
    • 磁共振射频发射装置和方法与通用标签和激励天线
    • US20090091326A1
    • 2009-04-09
    • US12238871
    • 2008-09-26
    • Hubertus FischerHelmut KessGeorg RauhWilfried Schnell
    • Hubertus FischerHelmut KessGeorg RauhWilfried Schnell
    • G01R33/32
    • G01R33/3664G01R33/3642G01R33/4833G01R33/56366
    • A radio-frequency transmission device for a magnetic resonance system to generate magnetic resonance exposures of an examination region of an examination subject, has: a first radio-frequency transmission antenna that emits radio-frequency signals in the examination region, a radio-frequency amplifier that supplies the first radio-frequency transmission antenna, with radio-frequency signals with a predetermined radio-frequency transmission power, and a second radio-frequency transmission antenna fashioned to label a medium flowing in the examination region and/or examination regions via emission of labeling radio-frequency signals, such that the medium can be identified in the generated magnetic resonance exposures of the examination region. The second radio-frequency transmission antenna is coupled with the radio-frequency amplifier to supply the first radio-frequency transmission antenna, such that it likewise supplies the second radio-frequency transmission antenna with radio-frequency signals with a predetermined radio-frequency transmission power for the emission of radio-frequency labeling signals.
    • 一种用于产生检查对象的检查区域的磁共振曝光的磁共振系统的射频传输装置,具有:在检查区域中发射射频信号的第一射频发射天线,射频放大器 其提供具有预定的射频发射功率的射频信号的第一射频发射天线,以及第二射频发射天线,其通过发射检测区域和/或检查区域中标记流经检查区域和/或检查区域的介质 标记射频信号,使得可以在产生的检查区域的磁共振暴露中识别介质。 第二射频发射天线与射频放大器耦合以提供第一射频发射天线,使得它同样向第二射频发射天线提供具有预定射频发射功率的射频信号 用于发射射频标签信号。