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    • 3. 发明授权
    • Magnetic resonance radio frequency system and operating method therefor
    • 磁共振射频系统及其操作方法
    • US07965082B2
    • 2011-06-21
    • US12420140
    • 2009-04-08
    • Helmut GreimMarkus VesterJian Min WangWei Dong WangYao Xing
    • Helmut GreimMarkus VesterJian Min WangWei Dong WangYao Xing
    • G01V3/00
    • G01R33/34076G01R33/3642G01R33/3657
    • In a method for processing radio frequency signals of a magnetic resonance imaging system in which the coil portion of the magnetic resonance imaging system includes a body coil and a local coil, radio frequency signals are supplied to the body coil, and these radio frequency signals are coupled to said local coil, and transmitted by said local coil into a region to be examined. A corresponding radio frequency system has a local coil and a body coil, with power coupling between the local coil and the body coil; during the phase for transmitting the radio frequency signals. The body coil serves to couple the radio frequency signals to be transmitted to the local coil, and the local coil serves to transmit the coupled radio frequency signals to a region to be examined. This method and system allow the transmitting function of the local coil to be achieved without having a coil plug on a patient bed to provide a radio frequency signal transmitting channel.
    • 在用于处理磁共振成像系统的线圈部分包括体线圈和局部线圈的磁共振成像系统的射频信号的方法中,射频信号被提供给体线圈,并且这些射频信号是 耦合到所述局部线圈,并由所述局部线圈传输到待检查的区域中。 对应的射频系统具有局部线圈和体线圈,其在局部线圈和体线圈之间具有功率耦合; 在发射射频信号的阶段。 体线圈用于将待传输的射频信号耦合到本地线圈,并且本地线圈用于将耦合的射频信号传输到待检查的区域。 该方法和系统允许实现本地线圈的传输功能,而不需要在病床上设置线圈插头来提供射频信号传输通道。
    • 4. 发明授权
    • Radial coil arrangement for a magnetic resonance apparatus
    • 用于磁共振设备的径向线圈装置
    • US07432711B2
    • 2008-10-07
    • US11540622
    • 2006-09-29
    • Jian-Jun DuArne ReykowskiMarkus VesterJian Min Wang
    • Jian-Jun DuArne ReykowskiMarkus VesterJian Min Wang
    • G01V3/00H01P7/00
    • G01R33/3415G01R33/365
    • A coil arrangement for a magnetic resonance apparatus has a number of coil elements that are capable of being operated independently of one another and are situated around a common central area. Each coil element of the coil arrangement is capacitively or inductively decoupled from the coil elements of the coil arrangement that are immediately adjacent to this coil element. In the central area, there is situated a capacitor network that connects the coil elements of the coil arrangement to one another. The capacitor network is fashioned and dimensioned such that it at least reduces the coupling of each coil element of the coil arrangement to at least one additional coil element of the coil arrangement that is not immediately adjacent to the respective coil element.
    • 用于磁共振装置的线圈装置具有能够彼此独立地操作并且位于公共中心区域周围的多个线圈元件。 线圈装置的每个线圈元件与线圈装置的线圈元件电容性地或电感地解耦,该线圈元件紧邻该线圈元件。 在中央区域中,设置有将线圈装置的线圈元件彼此连接的电容器网络。 电容器网络的形状和尺寸使得其至少将线圈装置的每个线圈元件的耦合减小到线圈装置的至少一个附加线圈元件,其不直接邻近相应的线圈元件。
    • 5. 发明授权
    • Receiving method, receiving system for magnetic resonance signals, and magnetic resonance imaging system
    • 接收方式,磁共振信号接收系统和磁共振成像系统
    • US09465092B2
    • 2016-10-11
    • US13689751
    • 2012-11-29
    • Markus VesterJian Min WangLan WangZhi Bin Li
    • Markus VesterJian Min WangLan WangZhi Bin Li
    • G01V3/00G01R33/54G01R33/36G01R33/3415
    • G01R33/54G01R33/3415G01R33/3621
    • A method and system for receiving magnetic resonance signals, and a magnetic resonance imaging system are provided. The method includes dividing coil units in a receiving coil array into different coil unit groups. For each of the coil unit groups, correlations are established between carrier frequencies and the signals received by each coil unit in the coil unit group. Low noise amplification is performed, and filtering and frequency mixing is performed on the signals received by all the coil units in the coil unit group according to the correlations to obtain intermediate frequency signals borne on the respectively corresponding carrier frequencies of an identical channel. After performing amplification and filtering on the intermediate frequency signals, the intermediate frequency signals are output to an analog-to-digital conversion unit to perform digital sampling so as to obtain digital domain signals.
    • 提供一种用于接收磁共振信号的方法和系统,以及磁共振成像系统。 该方法包括将接收线圈阵列中的线圈单元分成不同的线圈单元组。 对于每个线圈单元组,在线圈单元组中的载波频率和每个线圈单元接收的信号之间建立相关性。 执行低噪声放大,并且根据相关性对线圈单元组中的所有线圈单元接收到的信号进行滤波和混频,以获得承载在相同信道的相应载波频率上的中频信号。 在对中频信号执行放大和滤波之后,将中频信号输出到模数转换单元进行数字采样,以获得数字域信号。
    • 6. 发明申请
    • HIFU-COMPATIBLE RECEPTION COIL FOR MRI RF SIGNALS AND SIGNAL RECEIVING METHOD
    • 用于MRI RF信号和信号接收方法的HIFU兼容接收线圈
    • US20080042651A1
    • 2008-02-21
    • US11839756
    • 2007-08-16
    • Zeng He HeMarkus VesterJian Min WangYang Wang
    • Zeng He HeMarkus VesterJian Min WangYang Wang
    • H03H7/00G01R33/32
    • G01R33/3621G01R33/3685G01R33/4814H03H7/0115
    • A HIFU compatible receiving coil for MRI radio-frequency signals has an antenna and an amplifier connected to each other, each for receiving and amplifying MRI radio-frequency signals, and a filter positioned in front of the amplifier for filtering the HIFU low frequency signals received by the antenna at the same time as receiving the MRI radio-frequency signals. In a method for receiving the MRI radio-frequency signals and then for amplifying the same, the received MRI radio-frequency signals are filtered before being amplified, so as to filter out the HIFU signals received at the same time as the MRI radio-frequency signals. By this filtering, the HIFU signals among the HIFU signals and MRI radio-frequency signals simultaneously received by the antenna are filtered out at the same time as the HIFU treatment, and the remaining MRI radio-frequency signals are connected into the MRI system after being amplified by the amplifier for real-time imaging. Since the amplifier only processes the MRI radio-frequency signals, it can stay in a normal linear working status to ensure the normal proceeding of the subsequent real-time imaging.
    • 用于MRI射频信号的HIFU兼容接收线圈具有彼此连接的天线和放大器,用于接收和放大MRI射频信号,以及位于放大器前面的滤波器,用于对接收到的HIFU低频信号进行滤波 通过天线同时接收MRI射频信号。 在接收MRI射频信号然后进行放大的方法中,接收的MRI射频信号在被放大之前进行滤波,以便滤出与MRI射频同时接收的HIFU信号 信号。 通过这种滤波,天线同时接收的HIFU信号和MRI射频信号之间的HIFU信号在与HIFU处理同时被滤除,剩下的MRI射频信号被连接到MRI系统中 由放大器放大后进行实时成像。 由于放大器仅处理MRI射频信号,因此它可以保持在正常的线性工作状态,以确保后续实时成像的正常进行。
    • 7. 发明申请
    • Receiving Method, Receiving System for Magnetic Resonance Signals, and Magnetic Resonance Imaging System
    • 接收方式,磁共振信号接收系统和磁共振成像系统
    • US20130134980A1
    • 2013-05-30
    • US13689751
    • 2012-11-29
    • Markus VesterJian Min WangLan WangZhi Bin Li
    • Markus VesterJian Min WangLan WangZhi Bin Li
    • G01R33/54
    • G01R33/54G01R33/3415G01R33/3621
    • A method and system for receiving magnetic resonance signals, and a magnetic resonance imaging system are provided. The method includes dividing coil units in a receiving coil array into different coil unit groups. For each of the coil unit groups, correlations are established between carrier frequencies and the signals received by each coil unit in the coil unit group. Low noise amplification is performed, and filtering and frequency mixing is performed on the signals received by all the coil units in the coil unit group according to the correlations to obtain intermediate frequency signals borne on the respectively corresponding carrier frequencies of an identical channel. After performing amplification and filtering on the intermediate frequency signals, the intermediate frequency signals are output to an analog-to-digital conversion unit to perform digital sampling so as to obtain digital domain signals.
    • 提供一种用于接收磁共振信号的方法和系统,以及磁共振成像系统。 该方法包括将接收线圈阵列中的线圈单元分成不同的线圈单元组。 对于每个线圈单元组,在线圈单元组中的载波频率和每个线圈单元接收的信号之间建立相关性。 执行低噪声放大,并且根据相关性对线圈单元组中的所有线圈单元接收到的信号进行滤波和混频,以获得承载在相同信道的相应载波频率上的中频信号。 在对中频信号执行放大和滤波之后,将中频信号输出到模数转换单元进行数字采样,以获得数字域信号。
    • 8. 发明申请
    • MAGNETIC RESONANCE RADIO FREQUENCY SYSTEM AND OPERATING METHOD THEREFOR
    • 磁共振无线电频率系统及其运行方法
    • US20090256564A1
    • 2009-10-15
    • US12420140
    • 2009-04-08
    • Helmut GreimMarkus VesterJian Min WangWei Dong WangYao Xing
    • Helmut GreimMarkus VesterJian Min WangWei Dong WangYao Xing
    • G01R33/44
    • G01R33/34076G01R33/3642G01R33/3657
    • In a method for processing radio frequency signals of a magnetic resonance imaging system in which the coil portion of the magnetic resonance imaging system includes a body coil and a local coil, radio frequency signals are supplied to the body coil, and these radio frequency signals are coupled to said local coil, and transmitted by said local coil into a region to be examined. A corresponding radio frequency system has a local coil and a body coil, with power coupling between the local coil and the body coil; during the phase for transmitting the radio frequency signals. The body coil serves to couple the radio frequency signals to be transmitted to the local coil, and the local coil serves to transmit the coupled radio frequency signals to a region to be examined. This method and system allow the transmitting function of the local coil to be achieved without having a coil plug on a patient bed to provide a radio frequency signal transmitting channel.
    • 在一种用于处理磁共振成像系统的射频信号的方法中,其中磁共振成像系统的线圈部分包括体线圈和局部线圈,射频信号被提供给体线圈,并且这些射频信号是 耦合到所述局部线圈,并由所述局部线圈传输到待检查的区域中。 对应的射频系统具有局部线圈和体线圈,其在局部线圈和体线圈之间具有功率耦合; 在发射射频信号的阶段。 体线圈用于将待传输的射频信号耦合到本地线圈,并且本地线圈用于将耦合的射频信号传输到待检查的区域。 该方法和系统允许实现本地线圈的传输功能,而不需要在病床上设置线圈插头来提供射频信号传输通道。
    • 9. 发明授权
    • HIFU-compatible reception coil for MRI RF signals and signal receiving method
    • 用于MRI RF信号的HIFU兼容接收线圈和信号接收方法
    • US07463030B2
    • 2008-12-09
    • US11839756
    • 2007-08-16
    • Zeng He HeMarkus VesterJian Min WangYang Wang
    • Zeng He HeMarkus VesterJian Min WangYang Wang
    • G01V3/00
    • G01R33/3621G01R33/3685G01R33/4814H03H7/0115
    • A HIFU compatible receiving coil for MRI radio-frequency signals has an antenna and an amplifier connected to each other, each for receiving and amplifying MRI radio-frequency signals, and a filter positioned in front of the amplifier for filtering the HIFU low frequency signals received by the antenna at the same time as receiving the MRI radio-frequency signals. In a method for receiving the MRI radio-frequency signals and then for amplifying the same, the received MRI radio-frequency signals are filtered before being amplified, so as to filter out the HIFU signals received at the same time as the MRI radio-frequency signals. By this filtering, the HIFU signals among the HIFU signals and MRI radio-frequency signals simultaneously received by the antenna are filtered out at the same time as the HIFU treatment, and the remaining MRI radio-frequency signals are connected into the MRI system after being amplified by the amplifier for real-time imaging. Since the amplifier only processes the MRI radio-frequency signals, it can stay in a normal linear working status to ensure the normal proceeding of the subsequent real-time imaging.
    • 用于MRI射频信号的HIFU兼容接收线圈具有彼此连接的天线和放大器,每个用于接收和放大MRI射频信号,以及位于放大器前面的滤波器,用于对接收到的HIFU低频信号进行滤波 通过天线同时接收MRI射频信号。 在接收MRI射频信号然后进行放大的方法中,接收的MRI射频信号在被放大之前进行滤波,以便滤出与MRI射频同时接收的HIFU信号 信号。 通过这种滤波,天线同时接收的HIFU信号和MRI射频信号之间的HIFU信号在与HIFU处理同时被滤除,剩下的MRI射频信号被连接到MRI系统中 由放大器放大后进行实时成像。 由于放大器仅处理MRI射频信号,因此它可以保持在正常的线性工作状态,以确保后续实时成像的正常进行。
    • 10. 发明授权
    • Method for use of a common shoulder coil part for both left and right shoulder
    • 用于左肩和右肩的普通肩线圈部分的方法
    • US08805477B2
    • 2014-08-12
    • US14060739
    • 2013-10-23
    • Stephan BiberZeng He HeJian Min Wang
    • Stephan BiberZeng He HeLi MaHai Ning WangJian Min Wang
    • A61B5/055
    • A61B5/055A61B5/4528G01R33/34084
    • In a method for acquiring magnetic resonance signals from a first shoulder or an opposite second shoulder of a patient, a shoulder coil anterior part and a shoulder coil posterior part are provided. A base plate is engageable with a moveable support element connecting the shoulder coil posterior part to the base plate to permit lateral movement and 90 degree rotation of the shoulder coil posterior part. With the base plate beneath the patient, the shoulder coil posterior part is placed below the first shoulder and the shoulder coil anterior part is placed above the first shoulder to permit acquisition of magnetic resonance measurements. To acquire signals from the opposite second shoulder, the shoulder coil posterior part is moved across the base plate to be positioned beneath the second shoulder and is rotated by 90 degrees. The shoulder coil anterior part is placed above the rotated shoulder coil posterior part.
    • 在从患者的第一肩部或相对的第二肩部获取磁共振信号的方法中,设置有肩部线圈前部和肩部线圈后部。 基板可以与将肩部线圈后部连接到基板的可移动支撑元件接合,以允许肩部线圈后部的横向移动和90度旋转。 将患者的底板放在患者的下方,将肩胛骨后部置于第一肩部的下方,将肩部线圈前部置于第一肩部的上方,以便获得磁共振测量。 为了从相对的第二肩部获取信号,肩部线圈后部移动穿过基板,以定位在第二肩部下方并且旋转90度。 将肩部线圈前部放置在旋转的肩部线圈后部上方。