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    • 4. 发明授权
    • Method and circuit arrangement for detecting a wire break
    • 用于检测断线的方法和电路装置
    • US07548070B2
    • 2009-06-16
    • US11908853
    • 2006-01-25
    • Ralf FörsterGunther Wolfarth
    • Ralf FörsterGunther Wolfarth
    • G01R31/02
    • G01R31/024G01R19/165
    • A method and a circuit are provided for the continuous detection of a line break in a full bridge controlling an inductive load. When the full bridge is switched off or on, a pre-determinable switching device of the circuit is switched first, and then a potential applied to a connection between the switching device and the load is tapped. The tapped potential is then compared with the ground potential when the switching device is connected to the supply potential, or with the supply potential when the switching device is connected to the ground potential. A line break is then determined when the two compared potentials are not different in the free running state thereof.
    • 提供了一种方法和电路,用于连续检测控制感性负载的全桥中的换行。 当全桥被关闭或打开时,首先切换电路的预先确定的开关装置,然后点击施加到开关装置和负载之间的连接的电位。 然后,当开关器件连接到电源电位时,或者当开关器件连接到地电位时,将电位与接地电位进行比较。 当两个比较电位在其自由运行状态下没有不同时,确定换行符。
    • 5. 发明授权
    • Circuit configuration for providing of a diagnostic signal for a power switching device
    • 用于为功率开关器件提供诊断信号的电路配置
    • US07265535B2
    • 2007-09-04
    • US11271200
    • 2005-11-10
    • Bastian ArndtRalf FörsterKonstantin ThiveosGunther Wolfarth
    • Bastian ArndtRalf FörsterKonstantin ThiveosGunther Wolfarth
    • G01R31/28
    • G01R31/3277H03K17/0822H03K17/18
    • A circuit configuration providing a diagnostic signal for a power switching device which switches a load has a test circuit, a filter device, a validation device, and a coding device. The test circuit tests the power switching device and generates error symptoms for characterizing error types of different priorities. The filter device, depending on an activation signal activating the power switching device, provides a validity signal for the generated error symptoms. The validity signal specifies the validity of the corresponding error symptom in each case. The validation device validates a generated error symptom depending on the associated validity signal in each case and validates the validated activation signal and from this generates a group of is states and the associated complementary states. The coding device codes the states and complementary states depending on the priorities of the error types assigned to the states and complementary states. The diagnostic signal is formed from the coded states and complementary states.
    • 提供用于切换负载的功率开关装置的诊断信号的电路配置具有测试电路,滤波器装置,验证装置和编码装置。 测试电路测试电源开关设备,并产生用于表征不同优先级的错误类型的错误症状。 根据启动电源切换装置的激活信号,滤波器装置为所产生的错误症状提供有效信号。 在每种情况下,有效信号指定相应错误症状的有效性。 验证装置在每种情况下根据相关联的有效信号验证产生的错误症状,并且验证已验证的激活信号,并且由此产生一组状态和相关联的互补状态。 编码设备根据分配给状态和互补状态的错误类型的优先级来对状态和互补状态进行编码。 诊断信号由编码状态和互补状态形成。
    • 8. 发明授权
    • Automation system having framework based controller
    • 自动化系统具有基于框架的控制器
    • US08676354B2
    • 2014-03-18
    • US13058918
    • 2009-09-02
    • Ralf Förster
    • Ralf Förster
    • G05B11/01
    • G05B19/0426G05B2219/23255
    • The invention relates to an automation system having a number of objects to to be controlled, wherein the automation system comprises a framework based controller (21) for controlling basic functions (23) of at least one object of the number of objects by means of object-specific functional units (25), wherein the controller (21) is configured independently of the object, and comprises standardized interfaces (26) for the communicative incorporation of the object-specific functional units (25) by means of preconfigured functional requests, wherein each functional unit (25) is associated with at least one of the objects and configured for actuating the respective basic function (23) of the respectively associated object by means of object-specific control functions, wherein each object of the number of objects may be virtualized in the controller (21) by means of the associated object-specific functional units (25), and the objects of the number of objects respond and can be controlled by means of the object-specific functional units (25) during at least one operating state of the automation system exclusively by the framework based controller (21), and each of the functional units (25) comprises one simulation module having at least one simulation function integrated in the respective functional unit (25), and may optionally be configured for carrying out the object-specific control function or for carrying out the at least one simulation function. The invention further provides a method for testing an automation system having a framework based controller, and a method for the framework based controlling of a respective automation system.
    • 本发明涉及一种具有要控制的多个对象的自动化系统,其中该自动化系统包括一个基于框架的控制器(21),用于通过对象来控制物体数量的至少一个对象的基本功能(23) 特定功能单元(25),其中所述控制器(21)被独立于所述对象配置,并且包括用于通过预配置的功能请求来通信地结合所述对象特定功能单元(25)的标准化接口(26),其中 每个功能单元(25)与所述对象中的至少一个相关联并且被配置为通过对象特定控制功能致动相应关联对象的相应基本功能(23),其中所述对象数量的每个对象可以是 通过相关联的对象特定功能单元(25)在控制器(21)中虚拟化,并且对象数量的对象响应并且可以被控制 在所述自动化系统的至少一个操作状态期间由所述基于框架的控制器(21)专用地通过所述对象特定功能单元(25),并且所述功能单元(25)中的每一个包括具有至少一个模拟 功能集成在相应的功能单元(25)中,并且可以可选地被配置为执行对象特定的控制功能或用于执行至少一个模拟功能。 本发明还提供了一种用于测试具有基于框架的控制器的自动化系统的方法,以及用于基于框架的各自自动化系统的控制的方法。
    • 9. 发明申请
    • AUTOMATION SYSTEM HAVING FRAMEWORK BASED CONTROLLER
    • 具有基于框架的控制器的自动化系统
    • US20120022669A1
    • 2012-01-26
    • US13058918
    • 2009-09-02
    • Ralf Förster
    • Ralf Förster
    • G05B15/02
    • G05B19/0426G05B2219/23255
    • The invention relates to an automation system having a number of objects to to be controlled, wherein the automation system comprises a framework based controller (21) for controlling basic functions (23) of at least one object of the number of objects by means of object-specific functional units (25), wherein the controller (21) is configured independently of the object, and comprises standardized interfaces (26) for the communicative incorporation of the object-specific functional units (25) by means of preconfigured functional requests, wherein each functional unit (25) is associated with at least one of the objects and configured for actuating the respective basic function (23) of the respectively associated object by means of object-specific control functions, wherein each object of the number of objects may be virtualized in the controller (21) by means of the associated object-specific functional units (25), and the objects of the number of objects respond and can be controlled by means of the object-specific functional units (25) during at least one operating state of the automation system exclusively by the framework based controller (21), and each of the functional units (25) comprises one simulation module having at least one simulation function integrated in the respective functional unit (25), and may optionally be configured for carrying out the object-specific control function or for carrying out the at least one simulation function. The invention further provides a method for testing an automation system having a framework based controller, and a method for the framework based controlling of a respective automation system.
    • 本发明涉及一种具有要控制的多个对象的自动化系统,其中该自动化系统包括一个基于框架的控制器(21),用于通过对象来控制物体数量的至少一个对象的基本功能(23) 特定功能单元(25),其中所述控制器(21)被独立于所述对象配置,并且包括用于通过预配置的功能请求来通信地结合所述对象特定功能单元(25)的标准化接口(26),其中 每个功能单元(25)与所述对象中的至少一个相关联并且被配置为通过对象特定控制功能致动相应关联对象的相应基本功能(23),其中所述对象数量的每个对象可以是 通过相关联的对象特定功能单元(25)在控制器(21)中虚拟化,并且对象数量的对象响应并且可以被控制 在所述自动化系统的至少一个操作状态期间由所述基于框架的控制器(21)专用地通过所述对象特定功能单元(25),并且所述功能单元(25)中的每一个包括具有至少一个模拟 功能集成在相应的功能单元(25)中,并且可以可选地被配置为执行对象特定控制功能或用于执行至少一个模拟功能。 本发明还提供了一种用于测试具有基于框架的控制器的自动化系统的方法,以及用于基于框架的各自自动化系统的控制的方法。