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    • 3. 发明公开
    • ZUSATZMODUL FÜR EIN FELDGERÄT DER PROZESS- UND/ODER AUTOMATISIERUNGSTECHNIK
    • ZUSATZMODULFÜREINFELDGERÄTDER PROZESS- UND / ODER AUTOMATISIERUNGSTECHNIK
    • EP3230699A1
    • 2017-10-18
    • EP15790116.6
    • 2015-11-03
    • Endress+Hauser GmbH+Co. KG
    • MONSE, BenjaminUPPENKAMP, KajBRUTSCHIN, WolfgangSANDOR, Izabella
    • G01F15/06
    • G01F15/06H04Q9/00
    • The invention relates to an additional module (10) for a processing and/or automation field device (1), at least comprising a module housing (11), an optical receiving unit (13) which is arranged at least partly within the module housing (11), an electronic module unit (15), and a display/transmission unit (17). The optical receiving unit (13) is designed to wirelessly receive at least one first optical signal (12) from the field device (1) and to convert the at least one first optical signal (12) into at least one first electric signal (14), and the electronic module unit (15) is electrically connected to the receiving unit (13) and to the display/transmission unit (17). The electronic module unit (15) is designed to extract at least one piece of field device information from the at least one first electric signal (14) and to transmit the at least one piece of field information to the display/transmission unit (17), and the display/transmission unit (17) is designed to display the at least one piece of information and/or to transmit the at least one piece of information to at least one external unit (18).
    • 本发明涉及一种用于处理和/或自动化现场设备(1)的附加模块(10),其至少包括模块壳体(11),光学接收单元(13),其至少部分地设置在模块壳体 (11),电子模块单元(15)以及显示/传输单元(17)。 光接收单元(13)被设计为无线地接收来自现场设备(1)的至少一个第一光信号(12)并且将该至少一个第一光信号(12)转换为至少一个第一电信号(14 ),并且电子模块单元(15)电连接到接收单元(13)和显示/发送单元(17)。 电子模块单元(15)被设计为从至少一个第一电信号(14)中提取至少一个现场设备信息并且将该至少一个现场信息发送到显示/发送单元(17) ,并且显示/传输单元(17)被设计为显示至少一条信息和/或将所述至少一条信息传输到至少一个外部单元(18)。
    • 6. 发明公开
    • SYSTEM ZUM FLEXIBLEN BETREIBEN EINER AUTOMATISIERUNGSANLAGE
    • EP3055745A1
    • 2016-08-17
    • EP14771532.0
    • 2014-09-15
    • Endress+Hauser GmbH+Co. KG
    • GIRARDEY, RomualdJAHL, GünterFREIMARK, HaraldROBL, Stefan
    • G05B19/418
    • G05B19/41845G05B2219/32019G05B2219/42155Y02P80/114Y02P90/14Y02P90/16Y02P90/18Y02P90/86
    • The invention relates to a system for the flexible operation of an automation machine, comprising at least one computer (RE) and a plurality of field devices (A, S) for determining and/or monitoring physical or chemical process variables, wherein the at least one computer (RE) and the field devices (A, S) are networkable and are interconnected or interconnectable via a network, wherein each computer (RE) and each field device (A, S) is assigned or can be assigned a unique address in the network, and wherein communication takes place using a defined network protocol, wherein the networkable computer (RE) or networkable computers (RE) is/are assigned at least one machine model (AM) which virtually maps the machine topology, the machine function and the interaction of the field devices (S, A) with each other and with the at least one computer (RE), wherein the machine model (AM) is designed to be flexibly adaptable to different machine topologies, different machine functions and/or a different interaction of the field devices (A, S) with each other and with the at least one computer (RE), and wherein using the machine model (AM) the at least one computer (RE) controls the automation machine in accordance with the actual machine topology, the actual machine function and/or the actual interaction of the field devices (A, S) with each other and with the at least one computer (RE).
    • 一种用于自动化设备的灵活操作的系统,包括用于确定和/或监视物理或化学过程变量的至少一个计算机和多个现场设备。 计算机和现场设备被体现为具有网络能力并且经由网络彼此连接。 与网络中的唯一地址相关联,每台计算机和每个现场设备和通信都通过定义的网络协议进行。 与网络能力的计算机相关联的是至少一个工厂模型,其实际上将工厂拓扑,工厂功能和现场设备的相互作用与计算机映射到其中,其中植物模型被体现为可灵活地适应于不同的植物 拓扑,不同的工厂功能和/或现场设备与计算机的不同交互,并且其中计算机经由设备模型控制与当前工厂拓扑,当前工厂功能和/或当前工作功能的当前交互相对应的自动化设备 现场设备与计算机相互连接。
    • 7. 发明公开
    • VERFAHREN ZUR KALIBRATION ODER ZUM ABGLEICH EINER SCHWINGFÄHIGEN EINHEIT
    • VERFAHREN ZUR KALIBRATION ODER ZUM ABGLEICH EINERSCHWINGFÄHIGENEINHEIT
    • EP3008432A1
    • 2016-04-20
    • EP14726927.8
    • 2014-05-19
    • Endress+Hauser GmbH+Co. KG
    • BRENGARTNER, TobiasBECHTEL, GerdD'ANGELICO, Sascha
    • G01F25/00G01N9/00G01N11/16G01F23/296
    • G01H3/005G01F23/2966G01F25/0061G01N9/00G01N9/002G01N11/16G01N2011/0006
    • The invention relates to a method for calibrating or for adjusting any oscillatable unit by means of a mathematical model (model) which describes the oscillatable unit, wherein the oscillatable unit interacts at least intermittently with a medium located in a container. According to the invention the oscillatable unit is stimulated to oscillation by means of a real input signal; the real output signal of the oscillatable unit is ascertained; the real output signal is digitised and a real output sequence (yu(k)) is generated; the real input signal is digitised and a digital input sequence (u(k)) is generated; the digital input sequence (u(k)) is supplied to a function block (model) which in interaction with the medium provides the mathematical model (model) of the oscillatable unit defined by at least two sensor-specific variables (G1, G2); a virtual output sequence (ym(k)) is generated by means of the mathematical model (model); the virtual output sequence (ym(k)) is compared to the real output sequence (yu(k)); in the event of a deviation (e(k)) the sensor-specific variables (G1, G2) of the mathematical model (model) are adaptively modified, until the deviation between the virtual output sequence (ym(k)) and the real output sequence (yu(k)) of the oscillatable unit lies within a predetermined tolerance range.
    • 一种用于描述可振荡单元的数学模型来校准或调整任何可振荡单元的方法,其中可振荡单元与位于容器中的介质相互作用,包括以下步骤:通过实际输入信号激励可振荡单元以执行振荡 ; 确定可振荡单元的实际输出信号; 实际输出信号被数字化,产生实际输出序列; 实际输入信号被数字化并产生数字输入序列; 数字输入序列被馈送到功能块,其提供与介质相互作用的可振荡单元的数学模型。 数学模型由至少两个传感器特定变量定义; 通过数学模型产生虚拟输出序列。 将虚拟输出序列与实际输出序列进行比较; 在偏差的情况下,自适应地改变数学模型的传感器特定变量,直到虚拟输出序列与可振荡单元的实际输出序列之间的偏差在预定的公差范围内。