摘要:
In a transmission error logging device, method and computer-readable medium for logging transmission errors that occur on a high speed transmission route of a medical technology diagnostic apparatus, the in-feed port for a signal is provided on the high speed transmission route and an error signal is generated upon detection of an error. The transmission volume is detected by a transmission volume counter and the number of errors is detected by a transmission error counter. The transmission volume counter makes a transmission volume count, representing the transmission volume, available as an output from the transmission volume counter, and the transmission error counter makes a count of the number of errors detected by the error detection device available at an output of the transmission error counter.
摘要:
In a transmission error logging device, method and computer-readable medium for logging transmission errors that occur on a high speed transmission route of a medical technology diagnostic apparatus, the in-feed port for a signal is provided on the high speed transmission route and an error signal is generated upon detection of an error. The transmission volume is detected by a transmission volume counter and the number of errors is detected by a transmission error counter. The transmission volume counter makes a transmission volume count, representing the transmission volume, available as an output from the transmission volume counter, and the transmission error counter makes a count of the number of errors detected by the error detection device available at an output of the transmission error counter.
摘要:
A magnetic resonance system has components that include a magnetic field generation unit for generation of a basic magnetic field, gradient coils for generation of a field gradient as well as a radio-frequency coil arrangement with a number of radio-frequency coils for transmission and reception of radio-frequency signals. These components can respectively be activated according to a sequence via at least one digital module and at least one analog module. The analog modules are arranged externally to a control computer controlling the digital modules. The digital modules also are arranged externally to the control computer and are associated with the analog module or modules controlled by said digital modules. A data network is provided for communication between the digital modules and the control computer and a synchronous network is provided for synchronization of the digital modules and the control computer.
摘要:
In a device and a method to execute commands in components of an imaging system, in particular of a magnetic resonance tomography system, local clocks in the components are temporally synchronized, commands, including a respective command execution time specification which respectively specifies at which point in time a command should be executed, are sent to the components, the commands are received by the components, commands and command execution time specifications that are received by components are stored in these components, and a stored command is respectively executed when a time indicated by the local clock coincides with the stored command execution time specification regarding the command.
摘要:
A magnetic resonance system has a number of components including a basic magnetic field generation unit, gradient coils as well as a radio-frequency coil arrangement. The components are respectively controllable according to a control sequence via at least one digital module and at least one analog module. The analog modules are arranged external to a control computer that controls the digital modules. The digital modules are likewise arranged external to the control computer and are associated with the analog module or modules controlled via the control computer. The digital modules are networked via the following networks for communication of the digital modules among one another and/or with the control computer: a synchronous first network to synchronize the digital modules, an isochronous or semi-isochronous second network, a third network, wherein the digital modules are connected with the control computer via serial peripheral component interfaces and a signal transmission between the peripheral component interface of the respective digital module and the associated peripheral component interface of the control computer thereby occurs on optical paths.
摘要:
An arrangement for transmission of digital signals in a magnetic resonance apparatus has a local coil that has reception antenna connected via an amplifier with an A/D converter so that a magnetic resonance signal received via the individual antenna is amplified as an analog signal and is converted into a digital signal. The A/D converter is connected at the output with a transmission device that is designed for capacitive coupling transmission of the digital signal.
摘要翻译:用于在磁共振装置中传输数字信号的布置具有本地线圈,其具有经由放大器与A / D转换器连接的接收天线,使得经由单独天线接收的磁共振信号作为模拟信号被放大并被转换 成为数字信号。 A / D转换器在输出端连接有为数字信号的电容耦合传输而设计的传输装置。
摘要:
A magnetic resonance system has components that include a magnetic field generation unit for generation of a basic magnetic field, gradient coils for generation of a field gradient as well as a radio-frequency coil arrangement with a number of radio-frequency coils for transmission and reception of radio-frequency signals. These components can respectively be activated according to a sequence via at least one digital module and at least one analog module. The analog modules are arranged externally to a control computer controlling the digital modules. The digital modules also are arranged externally to the control computer and are associated with the analog module or modules controlled by said digital modules. A data network is provided for communication between the digital modules and the control computer and a synchronous network is provided for synchronization of the digital modules and the control computer.
摘要:
An arrangement for transmission of digital signals in a magnetic resonance apparatus has a local coil that has reception antenna connected via an amplifier with an A/D converter so that a magnetic resonance signal received via the individual antenna is amplified as an analog signal and is converted into a digital signal. The A/D converter is connected at the output with a transmission device that is designed for capacitive coupling transmission of the digital signal.
摘要翻译:用于在磁共振装置中传输数字信号的布置具有本地线圈,其具有经由放大器与A / D转换器连接的接收天线,使得经由单独天线接收的磁共振信号作为模拟信号被放大并被转换 成为数字信号。 A / D转换器在输出端连接有为数字信号的电容耦合传输而设计的传输装置。
摘要:
In a device and a method to execute commands in components of an imaging system, in particular of a magnetic resonance tomography system, local clocks in the components are temporally synchronized, commands, including a respective command execution time specification which respectively specifies at which point in time a command should be executed, are sent to the components, the commands are received by the components, commands and command execution time specifications that are received by components are stored in these components, and a stored command is respectively executed when a time indicated by the local clock coincides with the stored command execution time specification regarding the command.
摘要:
A magnetic resonance system has a number of components including a basic magnetic field generation unit, gradient coils as well as a radio-frequency coil arrangement. The components are respectively controllable according to a control sequence via at least one digital module and at least one analog module. The analog modules are arranged external to a control computer that controls the digital modules. The digital modules are likewise arranged external to the control computer and are associated with the analog module or modules controlled via the control computer. The digital modules are networked via the following networks for communication of the digital modules among one another and/or with the control computer: a synchronous first network to synchronize the digital modules, an isochronous or semi-isochronous second network, a third network, wherein the digital modules are connected with the control computer via serial peripheral component interfaces and a signal transmission between the peripheral component interface of the respective digital module and the associated peripheral component interface of the control computer thereby occurs on optical paths.