专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明申请

US20080141269A1 Electronic Device and Method for Performing Multiple Processes with the Electronic Device 有权
标题翻译：用电子设备执行多重处理的电子设备和方法
公开(公告)号：US20080141269A1
公开(公告)日：2008-06-12
申请号：US11632729
申请日：2005-07-05
申请人： Dietmar Spanke , Stefan Maier , Martin Link
发明人： Dietmar Spanke , Stefan Maier , Martin Link
IPC分类号： G06F9/46
CPC分类号： G01F23/0069 , G01F23/284
摘要： The invention relates to an electronic device (1) and a method for carrying out several processes with said electronic device (1), by means of which rapid solution times may be achieved in a resource-saving manner, whereby, in operation, said electronic device (1) carries out first and second processes (P1, P2), of which the first process (P1) may be carried out in the form of an approximation (P1-N) and in the form of an executable calculation (P1-B). The electronic device comprises a processor (9), for carrying out processes (P1, P2) and an electronic unit (11) comprises a device which recognizes whether the processor (9) is active and serves to carry out the first process (P1) during a simultaneous processing of two processes by the processor (9), by itself determining the approximation (P1-N), used in place of an executable calculation (P1-B), carried out by the processor (9).
摘要翻译：本发明涉及一种电子设备（1）和一种用于利用所述电子设备（1）进行多个处理的方法，借助于此可以以资源节约的方式实现快速的解决时间，从而在操作中所述电子设备设备（1）执行第一和第二进程（P 1，P 2），其中第一进程（P 1）可以以近似（P 1 -N）的形式执行，并且以可执行的形式计算（P 1 -B）。电子设备包括用于执行处理（P 1，P 2）的处理器（9），并且电子单元（11）包括识别处理器（9）是否有效并用于执行第一处理的设备（11） P 1）在由处理器（9）同时处理两个处理期间，通过本身确定用于代替由处理器（9）执行的可执行计算（P 1 -B）的近似（P 1 -N））。

2. 发明授权

US08938741B2 Electronic device and method for performing multiple processes with the electronic device 有权
标题翻译：用于使用电子设备执行多个处理的电子设备和方法
公开(公告)号：US08938741B2
公开(公告)日：2015-01-20
申请号：US11632729
申请日：2005-07-05
申请人： Dietmar Spanke , Stefan Maier , Martin Link
发明人： Dietmar Spanke , Stefan Maier , Martin Link
IPC分类号： G06F9/46 , G01F23/00 , G01F23/284
CPC分类号： G01F23/0069 , G01F23/284
摘要： An electronic device, and a method for executing a plurality of processes with the electronic device, wherein, in a resource-conserving manner, rapid response times are achievable, in that the electronic device, during operation, executes first and second processes (P1, P2), of which the first processes (P1) are executable as approximate solutions (P1-A) and as detailed calculations (P1-C). The electronic device includes a processor for executing processes (P1, P2) and an electronic unit or a multitasking-capable operating system. The electronic unit includes a component, which recognizes whether the processor is active, and serves, while the processor is active and a simultaneous execution of at least two processes is required, for executing the first processes (P1), in that it, itself, determines the approximate solution (P1-A) and sets such in the place of a detailed calculation (P1-C) determined with the processor.
摘要翻译：一种电子设备和一种利用电子设备执行多个处理的方法，其中，以资源节约的方式可以实现快速响应时间，其中电子设备在操作期间执行第一和第二处理（P1， P2），其中第一过程（P1）可作为近似解（P1-A）和详细计算（P1-C）执行。电子设备包括用于执行处理（P1，P2）和电子单元或多任务操作系统的处理器。电子单元包括识别处理器是否活动的部件，并且当处理器处于活动状态并且需要同时执行至少两个进程时，用于执行第一进程（P1），因为它本身，确定近似解（P1-A）并将其设置在用处理器确定的详细计算（P1-C）的位置。

3. 发明申请

US20050092081A1 Method for measuring a fill level 失效
标题翻译：测量填充水平的方法
公开(公告)号：US20050092081A1
公开(公告)日：2005-05-05
申请号：US10849126
申请日：2004-05-20
申请人： Dietmar Spanke , Manfred Eckert , Stefan Maier , Holger Steltner
发明人： Dietmar Spanke , Manfred Eckert , Stefan Maier , Holger Steltner
IPC分类号： G01F23/296 , G01F25/00 , G01F23/00
CPC分类号： G01F25/0061 , G01F23/2962
摘要： A method for a fill level measurement in accordance with the running time principle, which functions dependably over a long period of time, is provided, having a fill level measuring device with an ultrasonic sensor for transmitting and receiving ultrasound, wherein a repeated check of a resonance frequency of the ultrasonic sensor is performed, in the course of which the ultrasonic sensor is briefly excited to oscillate, following the excitation a signal received by the ultrasonic sensor is picked up, and the actual resonance frequency of the ultrasonic sensor is determined by means of the received signal in that the received signal is digitized and supplied to a digital signal processor, a Fourier transformation of the digitized received signal is performed in the signal processor, a maximum of the Fourier-transformed received signal is determined as a function of the frequency, a frequency at which the maximum occurs is stored as the actual resonance frequency, and during measuring operations the ultrasonic sensor is excited by the digital signal processor by means of the last determined actual resonance frequency.
摘要翻译：提供了一种根据运行时间原理进行填充水平测量的方法，该运行时间原理在长时间内可靠地运行，具有具有用于发送和接收超声波的超声波传感器的填充液位测量装置，其中重复检查执行超声波传感器的谐振频率，在超声波传感器被短暂地激发振荡的过程中，在激发之后，拾取由超声波传感器接收的信号，并且通过装置确定超声波传感器的实际谐振频率接收信号的数字化并提供给数字信号处理器，在信号处理器中进行数字化接收信号的傅里叶变换，将傅里叶变换接收信号的最大值确定为频率，将最大值发生的频率存储为实际谐振频率，以及测量期间通过最后确定的实际谐振频率，数字信号处理器激励超声波传感器的操作。

4. 发明授权

US07010974B2 Method for measuring a fill level 失效
标题翻译：测量填充水平的方法
公开(公告)号：US07010974B2
公开(公告)日：2006-03-14
申请号：US10849126
申请日：2004-05-20
申请人： Dietmar Spanke , Manfred Eckert , Stefan Maier , Holger Steltner
发明人： Dietmar Spanke , Manfred Eckert , Stefan Maier , Holger Steltner
IPC分类号： G01F23/296
CPC分类号： G01F25/0061 , G01F23/2962
摘要： A method for a fill level measurement in accordance with the running time principle, which functions dependably over a long period of time, is provided, having a fill level measuring device with an ultrasonic sensor for transmitting and receiving ultrasound, wherein a repeated check of a resonance frequency of the ultrasonic sensor is performed, in the course of which the ultrasonic sensor is briefly excited to oscillate, following the excitation a signal received by the ultrasonic sensor is picked up, and the actual resonance frequency of the ultrasonic sensor is determined by means of the received signal in that the received signal is digitized and supplied to a digital signal processor, a Fourier transformation of the digitized received signal is performed in the signal processor, a maximum of the Fourier-transformed received signal is determined as a function of the frequency, a frequency at which the maximum occurs is stored as the actual resonance frequency, and during measuring operations the ultrasonic sensor is excited by the digital signal processor by means of the last determined actual resonance frequency.
摘要翻译：提供了一种根据运行时间原理进行填充水平测量的方法，该运行时间原理在长时间内可靠地运行，具有具有用于发送和接收超声波的超声波传感器的填充液位测量装置，其中重复检查执行超声波传感器的谐振频率，在超声波传感器被短暂地激发振荡的过程中，在激发之后，拾取由超声波传感器接收的信号，并且通过装置确定超声波传感器的实际谐振频率接收信号的数字化并提供给数字信号处理器，在信号处理器中进行数字化接收信号的傅里叶变换，将傅里叶变换接收信号的最大值确定为频率，将最大值发生的频率存储为实际谐振频率，以及测量期间通过最后确定的实际谐振频率，数字信号处理器激励超声波传感器的操作。

5. 发明授权

US08223035B2 Method for commissioning and/or operating a communication system 有权
标题翻译：调试和/或操作通信系统的方法
公开(公告)号：US08223035B2
公开(公告)日：2012-07-17
申请号：US12086616
申请日：2006-12-06
申请人： Dietmar Spanke , Michael Heim , Martin Link
发明人： Dietmar Spanke , Michael Heim , Martin Link
IPC分类号： G08C19/22 , H04Q9/00
CPC分类号： H04Q9/00 , H04Q2209/845
摘要： A method for start-up and/or operation of a communication system composed of at least one multivariable sensor, at least one converter unit and at least one receiving unit, which are connected with one another via a two-wire line. A wherein a primary measured value in the form of an analog signal and extra measured values in the form of an encoded digital signal modulated on the analog signal are provided from the multivariable sensor via the two-wire line, wherein only analog signals are received by the receiving unit. The extra measured values are scaled in the multivariable sensor into formatted values by means of a conversion algorithm, wherein at least the formatted values are requested and received by the converter unit, and wherein corresponding analog signals of the extra measured values are produced from the formatted values in the converter unit by a fixedly predetermined, unconfigurable, reconversion algorithm. The analog signals of the extra measured values are transmitted via respective separate electrical current lines to the receiving unit.
摘要翻译：一种由至少一个多变量传感器，至少一个转换器单元和至少一个接收单元组成的通信系统的启动和/或操作的方法，它们通过双线线路相互连接。 A，其中以模拟信号的形式的主要测量值和以模拟信号调制的编码数字信号形式的额外测量值经由双线线路从多变量传感器提供，其中仅模拟信号由接收单元。额外的测量值通过转换算法在多变量传感器中被缩放为格式化值，其中至少格式化值被转换器单元请求和接收，并且其中额外测量值的对应模拟信号是从格式化的转换器单元中的值通过固定预定的，不可配置的再转换算法。额外的测量值的模拟信号通过相应的单独的电流线传输到接收单元。

6. 发明申请

US20100019931A1 Method for Commissioning and/or Operating a Communication System 有权
标题翻译：调试和/或操作通信系统的方法
公开(公告)号：US20100019931A1
公开(公告)日：2010-01-28
申请号：US12086616
申请日：2006-12-06
申请人： Dietmar Spanke , Martin Link , Michael Heim
发明人： Dietmar Spanke , Martin Link , Michael Heim
IPC分类号： G08C19/02
CPC分类号： H04Q9/00 , H04Q2209/845
摘要： A method for start-up and/or operation of a communication system composed of at least one multivariable sensor, at least one converter unit and at least one receiving unit, which are connected with one another via a two-wire line. A primary measured value in the form of an analog signal and extra measured values in the form of an encoded digital signal modulated on the analog signal are provided from the multivariable sensor via the two-wire line, wherein only analog signals are received by the receiving unit. The extra measured values are scaled in the multivariable sensor into formatted values by means of a conversion algorithm, wherein at least the formatted values are requested and received by the converter unit, and wherein corresponding analog signals of the extra measured values are produced from the formatted values in the converter unit by a fixedly predetermined, unconfigurable, reconversion algorithm. The analog signals of the extra measured values are transmitted via respective separate electrical current lines to the receiving unit.
摘要翻译：一种由至少一个多变量传感器，至少一个转换器单元和至少一个接收单元组成的通信系统的启动和/或操作的方法，它们通过双线线路相互连接。模拟信号形式的主要测量值和以模拟信号调制的编码数字信号形式的额外测量值通过双线线从多变量传感器提供，其中只有模拟信号被接收单元。额外的测量值通过转换算法在多变量传感器中被缩放为格式化值，其中至少格式化值被转换器单元请求和接收，并且其中额外测量值的对应模拟信号是从格式化的转换器单元中的值通过固定预定的，不可配置的再转换算法。额外的测量值的模拟信号通过相应的单独的电流线传输到接收单元。

7. 发明授权

US08567243B2 Method for fill level measurement 有权
标题翻译：填充液位测量方法
公开(公告)号：US08567243B2
公开(公告)日：2013-10-29
申请号：US12735114
申请日：2008-12-12
申请人： Alexey Malinovskiy , Herbert Schroth , Dietmar Spanke
发明人： Alexey Malinovskiy , Herbert Schroth , Dietmar Spanke
IPC分类号： G01F23/26 , G01S13/08 , G01S7/40
CPC分类号： G01F23/284 , G01F22/00 , G01F23/0061 , G01F23/263
摘要： A method for a fill level measurement in which a first and/or a second fill substance can be located. A rest position can be ascertained, when the entire amount of each fill substance in the container forms a single layer containing only this fill substance, wherein the first fill substance has a smaller specific weight than the second fill substance, and the two fill substances have different dielectric constants. An electromagnetic signal is sent into the container, wherein a part of the signal is reflected. A capacitance between a capacitive probe and a reference electrode is measured, dependent on the amounts of the fill substances located in the container, and, on the basis of the measured capacitance and the measured travel times for each fill substance present in the container, the rest position of its fill substance upper surface is ascertained.
摘要翻译：一种用于填充液位测量的方法，其中可以定位第一和/或第二填充物质。当容器中的每个填充物质的总量形成仅含有该填充物质的单层时，可以确定静止位置，其中第一填充物质具有比第二填充物质更小的比重，并且两个填充物质具有不同介电常数。电磁信号被发送到容器中，其中信号的一部分被反射。取决于位于容器中的填充物质的量，测量电容式探针与参考电极之间的电容，并且基于测量的电容和存在于容器中的每种填充物质的测量的行进时间，确定其填充物质上表面的静止位置。

8. 发明授权

US08276444B2 Method for ascertaining and monitoring fill level of a medium in a container using a travel time, measuring method 有权
标题翻译：使用旅行时间，测量方法确定和监测容器中介质的填充水平的方法
公开(公告)号：US08276444B2
公开(公告)日：2012-10-02
申请号：US12448354
申请日：2007-12-19
申请人： Alexey Malinovskiy , Edgar Schmitt , Dietmar Spanke
发明人： Alexey Malinovskiy , Edgar Schmitt , Dietmar Spanke
IPC分类号： G01N29/00
CPC分类号： G01F23/284 , G01F23/2962
摘要： A method for ascertaining and monitoring fill level of a medium in a container a field device using a travel time, measuring method, wherein transmission signals are transmitted and reflection signals received. The received reflection signals are registered as echo signals in an echo function, wherein masking curve, evaluation curves and/or echo parameters of the echo signals in the echo function are ascertained or predetermined, as well as stored in a first measuring cycle. By a static echo search algorithm, through the masking curve, the evaluation curve, the echo parameters, position and/or amplitude of at least one wanted echo signal are/is ascertained, wherein, a dynamic echo search algorithm, a continuous echo tracking of positional changes and/or amplitude changes of individual echo signals and/or the wanted echo signal in the echo function is performed. On the basis of positional changes and/or amplitude changes of individual wanted echo signals, masking curve, evaluation curve and/or echo parameters of the static echo search algorithm are adjusted.
摘要翻译：一种用于确定和监测容器中的介质的填充水平的方法，其使用行进时间的现场设备，测量方法，其中传输信号被传送并且接收到反射信号。所接收的反射信号作为回波信号被记录在回波函数中，其中回波函数中的回波信号的掩蔽曲线，评估曲线和/或回波参数被确定或预定，并且被存储在第一测量循环中。通过静态回波搜索算法，通过掩蔽曲线确定至少一个有用回波信号的评估曲线，回波参数，位置和/或振幅，其中，动态回波搜索算法，连续回波跟踪执行回波函数中各个回波信号和/或有用回波信号的位置变化和/或振幅变化。基于各个想要的回波信号的位置变化和/或振幅变化，调整静态回波搜索算法的掩蔽曲线，评估曲线和/或回波参数。

9. 发明申请

US20110166805A1 METHOD FOR ASCERTAINING AND MONITORING FILL LEVEL OF A MEDIUM IN A CONTAINER USING A TRAVEL TIME MEASURING METHOD 有权
标题翻译：使用旅行时间测量方法对集装箱中的介质进行渗透和监测的方法
公开(公告)号：US20110166805A1
公开(公告)日：2011-07-07
申请号：US12735970
申请日：2008-08-11
申请人： Manfred Hammer , Alexey Malinovskiy , Edgar Schmitt , Herbert Schroth , Dietmar Spanke
发明人： Manfred Hammer , Alexey Malinovskiy , Edgar Schmitt , Herbert Schroth , Dietmar Spanke
IPC分类号： G06F19/00 , G01F23/00
CPC分类号： G01F23/284
摘要： A method for ascertaining and monitoring the fill level of a medium in a container via a field device, wherein transmission signals are transmitted toward the medium and are received as reflection signals. The transmission signals and the reflection signals are registered by means of data points in an envelope curve dependent on travel time or travel distance. Disturbance echo signals are registered by means of data points in a masking curve, the data points are connected with one another via connecting functions An evaluation curve is ascertained from the envelope curve; wherein, by means of a reduction algorithm, the number of data points in the masking curve and/or in the evaluation curve is reduced; and wherein, by an echo search algorithm, by means of the reduced masking curve and/or reduced evaluation curve, at least one wanted echo signal in the current envelope curve is ascertained.
摘要翻译：一种用于通过现场设备确定和监视容器中的介质的填充水平的方法，其中传输信号被传送到介质并作为反射信号被接收。传输信号和反射信号通过取决于行进时间或行驶距离的包络线中的数据点进行登记。干扰回波信号通过掩蔽曲线中的数据点进行记录，数据点通过连接功能相互连接。从包络曲线确定评估曲线; 其中，通过缩小算法减少掩蔽曲线和/或评估曲线中数据点的数量; 并且其中，通过回波搜索算法，借助于减小的掩蔽曲线和/或降低的评估曲线，确定当前包络线中的至少一个所需的回波信号。

10. 发明申请

US20080302439A1 Filling Level Measurement Device and Filling Level Measurement and Monitoring Method 有权
标题翻译：灌装液位测量装置和灌装液位测量和监测方法
公开(公告)号：US20080302439A1
公开(公告)日：2008-12-11
申请号：US10583385
申请日：2004-12-14
申请人： Dietmar Spanke , Edgar Schmitt , Reinhard Schaefer , Holger Steltner
发明人： Dietmar Spanke , Edgar Schmitt , Reinhard Schaefer , Holger Steltner
IPC分类号： B65B1/04 , B65B1/30
CPC分类号： G01F23/28 , G01F23/284 , G01F23/2962 , G01F25/0061 , Y10S367/908
摘要： A method for measuring a fill level (7) of a fill substance (1) in a container (3) and for monitoring at least one predetermined fill level (LMIN, LMAX), using a fill level measuring device (5) working according to the travel-time principle, as well as a corresponding fill level measuring device (5), wherein the monitoring satisfies high safety standards, wherein, in each measuring cycle, transmission signals (S) are sent toward the fill substance (1) and their echo signals (E) are received, the fill level (7) is determined, based on the echo signals (E), in a first evaluation method, and it is determined, based on the echo signals (E), in a second evaluation method independent of the first evaluation method, whether the fill level exceeds or falls beneath the predetermined fill levels (LMIN, LMAX).
摘要翻译：一种用于测量容器（3）中的填充物质（1）的填充水平（7）并用于监测至少一个预定填充水平（LMIN，LMAX）的方法，所述填充液位测量装置（5）根据旅行时间原理以及相应的填充水平测量装置（5），其中监测满足高安全标准，其中在每个测量周期中，向填充物质（1）发送传输信号（S）及其回波信号（E）被接收，在第一评估方法中，基于回波信号（E）确定填充电平（7），并且基于回波信号（E）在第二评估中确定独立于第一评估方法的方法，填充水平是否超过或落在预定填充水平（LMIN，LMAX）之下。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式