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    • 41. 发明申请
    • METHOD AND DEVICE FOR TRIGGERING A RECORDING OF A MEASURING SIGNAL
    • 方法和装置用于触发测量信号的记录
    • WO2008064769A2
    • 2008-06-05
    • PCT/EP2007009806
    • 2007-11-13
    • ROHDE & SCHWARZSCHMIDT KURT
    • SCHMIDT KURT
    • G01R13/34
    • G01R13/0254G01R23/16
    • The invention relates to a device for triggering a recording of a measuring signal in accordance with at least one trigger event that can be identified in a frequency distribution of variable pairs from two variables of measuring signals that are independent from each other. Said device comprises a discriminator (1) for identifying trigger events having respectively one frequency (NofTreffer) determined with respect to each pair of variables and one frequency (NofTreffer) which, in the first embodiment, is located outside the upper threshold value (UpperNofTreffer) and a lower threshold value (LowerNofTreffer) associated, respectively with the pair of variables, and in a second embodiment, is located inside said threshold value, and for characterising the associated respective trigger event with the aid of an activated first trigger marker (TrigMerkl) associated with the each pair of variables. A memory (2) is used to memorise at least the upper and lower threshold values (UpperNofTreffer, LowerNofTreffer) for each pair of variables.
    • 一种用于触发一测量信号的记录作为至少一种在所测量的信号的触发事件的两个相互依存的参数的特征值对频率分布可识别的功能装置包括用于触发事件的识别的识别器(1),每个具有在各自的特性对和在所确定的 在第一实施例中,内与各自的特性对上和下阈值的(UpperNofTreffer,LowerNofTreffer)躺在频率(NofTreffer)相关联的一个和用于识别与借助于相应遇到触发事件之外,在第二实施例中,活化的与各自的特性对第一触发标志的(TrigMerkl)相关联 , 存储器(2)用于存储至少上部和下部阈值(UpperNofTreffer,LowerNofTreffer)对于每对参数。
    • 45. 发明申请
    • STREAMING ARCHITECTURE FOR WAVEFORM PROCESSING
    • 波浪加工流水建筑
    • WO0241103A3
    • 2003-02-27
    • PCT/US0143211
    • 2001-11-16
    • LECROY CORP
    • MILLER MARTIN THOMASLIBBY JONATHAN CALVINRITTER GILLES
    • G01R13/20G01R13/02G01R13/34G01R19/25G05B15/02G06F9/445
    • G06F9/44505G01R13/02G01R13/029G01R13/345G01R19/2506G05B15/02H04N21/47202H04N21/8173
    • An oscilloscope apparatus and method of processing waveform data using a streaming architecture. The apparatus has multiple processing objects (processors) that share a common cache memory in which the waveform data is stored during processing. Each processing object (220) performs a sequential processing operation by retrieving a "chunk" or portion of the waveform from the memory, processes the chunk of data, and re-stores the processed data into the same location in the cache memory. This process is generally repeated until the entire waveform has been sequentially processed. The apparatus operates using a "pull" design wherein the last processor requests the next chunk to be processed from the preceeding processor. In this manner, the waveform data is essentially processed by pulling it thorugh the sequence of processing objects. The multiple processing objects may be implemented as a sequence of software processing objects in a processing thread or as separate hardware processors.
    • 使用流式架构处理波形数据的示波器装置和方法。 该装置具有共享公共高速缓冲存储器的多个处理对象(处理器),其中在处理期间存储波形数据。 每个处理对象(220)通过从存储器中检索“块”或波形的一部分来执行顺序处理操作,处理数据块,并将处理的数据重新存储到高速缓冲存储器中的相同位置。 通常重复该过程直到整个波形被顺序处理。 该设备使用“拉”设计进行操作,其中最后的处理器从先前的处理器请求要处理的下一个块。 以这种方式,通过拉动它来处理对象的序列来基本上处理波形数据。 多个处理对象可以被实现为处理线程中的软件处理对象的序列或者作为单独的硬件处理器。
    • 47. 发明申请
    • MEASURING INSTRUMENT WITH MULTIPLE SIGNAL TERMINALS SHARED IN MULTIPLE OPERATION MODES
    • 在多种操作模式下共享多个信号终端的测量仪器
    • WO01031352A1
    • 2001-05-03
    • PCT/JP2000/007435
    • 2000-10-24
    • G01D9/00G01D9/28G01R13/28G01R13/34G01R15/12G01R31/28H04J3/00G01R29/08G01R15/00
    • G01R13/342G01R1/04G01R15/125G01R31/2839
    • A plurality of signal-processing units corresponding to a plurality of operation modes are housed in a case (1), on the front (1a) of which are arranged a control panel (3), a display and a plurality of signal terminals (5a) located near the display and shared by the signal-processing units. A signal name memory stores the signal name (11) assigned to the signal at the signal terminal for each of the signal-processing units. A switch is operated to connect a signal terminal for a specified operation mode with a signal-processing unit for the specified operation mode. The signal name corresponding to the specified operation mode is read from the signal name memory and indicated near the associated signal terminal on the screen (4a) of the display.
    • 对应于多个操作模式的多个信号处理单元被容纳在壳体(1)中,其前面(1a)布置有控制面板(3),显示器和多个信号端子(5a )位于显示器附近并由信号处理单元共享。 信号名称存储器存储分配给每个信号处理单元的信号端子处的信号的信号名称(11)。 操作开关用于将用于指定操作模式的信号端子与用于指定操作模式的信号处理单元连接。 从信号名称存储器读取与指定的操作模式相对应的信号名称,并在显示器的屏幕(4a)上的关联的信号端子附近指示。
    • 49. 发明申请
    • SYSTEM AND METHOD OF ELIMINATING SYSTEMATIC NOISE IN STIMULUS-RESPONSE SYSTEMS
    • 系统和方法消除系统噪声在刺激反应系统
    • WO1997014970A1
    • 1997-04-24
    • PCT/US1996016620
    • 1996-10-18
    • MASSACHUSETTS INSTITUTE OF TECHNOLOGY
    • MASSACHUSETTS INSTITUTE OF TECHNOLOGYASHOORI, Raymond, C.
    • G01R13/34
    • G01R13/32
    • A system and method of eliminating systematic noise in a stimulus-response system. A data acquisition time frame is triggered during which a desired response signal is acquired. The triggering initiates the systematic noise which is stored along with the desired response signal. A stimulus signal is provided to the stimulus-response system in order to induce the desired response signal. A variable delay is introduced between the triggering of the data acquisition time frame and the provision of the stimulus signal. Individual sets of response signals are acquired which respectively correspond to each introduced variable delay. The sets of acquired response signals are shifted so that the stimulus signals are equivalent in time with respect to each set of acquired response signals. The shifted sets of acquired response signals are summed in order to convolute in time the systematic noise.
    • 一种在刺激反应系统中消除系统噪声的系统和方法。 触发数据采集时间帧,在此期间获取期望的响应信号。 触发启动与期望的响应信号一起存储的系统噪声。 刺激信号被提供给刺激 - 响应系统以便诱导期望的响应信号。 在触发数据采集时间帧和提供刺激信号之间引入了可变延迟。 获取分别对应于每个引入的可变延迟的各组响应信号。 获取的响应信号的集合被移位,使得刺激信号相对于每组获取的响应信号在时间上是等效的。 所获取的响应信号的移位集合被相加以便及时地对系统噪声进行卷积。
    • 50. 发明申请
    • DIGITAL SAMPLING OF INDIVIDUAL PULSES
    • 个人脉搏数字采样
    • WO1993013427A1
    • 1993-07-08
    • PCT/GB1992002318
    • 1992-12-14
    • THE SECRETARY OF STATE FOR DEFENCE IN HER ...LEWIS, Meirion
    • THE SECRETARY OF STATE FOR DEFENCE IN HER ...
    • G01R13/34
    • G01R13/347
    • A device and a process for enabling an incident wide bandwidth (greater than about 1GHz) short duration (less than about 10 microseconds) individual pulse of electromagnetic radiation to be digitally sampled at a sampling rate that is achievable by available digital sampling circuits. The incident pulse is modulated onto an optical signal to form a modulated optical signal and the whole, or successive or randomly selected parts, of the modulated optical signal are replicated using optical time delay means. The resulting plurality of modulated optical signal representations of the whole or parts of the incident pulse can then be digitally sampled at a sampling rate which is reduced in proportion to the number of replications to obtain a complete digital representation of the incident pulse.
    • 一种用于使得能够以可用数字采样电路可实现的采样速率数字采样的电磁辐射的单个脉冲的入射宽带宽(大于约1GHz)的短持续时间(大于约1微秒)的装置和处理。 将入射脉冲调制到光信号上以形成调制的光信号,并且使用光时延装置复制调制光信号的整个或连续或随机选择的部分。 然后可以以与复制次数成比例地减小以获得入射脉冲的完整数字表示的采样率数字采样所得到的入射脉冲的全部或部分的调制光信号表示。