Patents by Inventor Christian Rehtanz
Christian Rehtanz has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20150286759Abstract: The present invention relates to a computer-implemented method for a hybrid simulation of an electric power distribution network and an associated communication network connected therewith to determine a time delay between an event occurring in the power distribution network and a desired effect of a performed measure in the power distribution network, the measure having been decided on by means of a decision-making algorithm as a reaction to the event.Type: ApplicationFiled: July 11, 2013Publication date: October 8, 2015Inventors: Christian Rehtanz, Sven Christian Mueller, Kay Goerner, Christian Wietfeld, Kai Hanno Georg, Andreas Lewandowski, Christian Haegerling
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Publication number: 20120143423Abstract: Method, system and device for determining quantities of power by registering on the vehicle side a quantity of power exchanged with a power point 12, transmission on the vehicle side of information concerning the first quantity of power, registering on the power point side of a total quantity of power formed from the sum of the first quantity of power and also a second quantity of power made available by the power point 12 independently of the electric vehicle 2, subtraction of the first quantity of power received by the vehicle 2 from the total quantity of power in order to determine the second quantity of power.Type: ApplicationFiled: December 21, 2011Publication date: June 7, 2012Applicant: RWE AGInventors: Thomas Theisen, Armin Gaul, Ingo Diefenbach, Christian Rehtanz, Willi Horenkamp, Johannes Rolink
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Patent number: 8190379Abstract: The present disclosure is concerned with the reduction of an operational security margin of a power system without jeopardizing the safety of the power system or incurring heavy investments. According to the disclosure, a check for basic accuracy or correctness of a conventional State Estimation (SE) procedure allows to increase a level of confidence in the results of the procedure. To this end, an accuracy of the estimated states is verified by comparing the latter with the results (y, y?) of independent phasor measurements performed at selected locations of the power system. Unless a discrepancy is reported by this comparison, the results of the SE can be assumed to be sufficiently accurate, and any conservative or additional security margin intended to compensate for SE uncertainty can be relaxed. Hence, established trustworthiness in the estimated states allows increasing the transmitted power where the estimated states do indicate such a possibility, i.e.Type: GrantFiled: May 6, 2008Date of Patent: May 29, 2012Assignee: ABB Technology AGInventors: Christian Rehtanz, Andreas Suranyi, Joachim Bertsch, Marek Zima
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Patent number: 7526366Abstract: The invention is directed toward an electrical power control system (1) in an electrical power system, having: a power control unit (2) for setting electric state variables and/or parameters in a current conductor, to be controlled, of the electrical power system, having: means (3) for detecting electric characteristic values (u1) of the current conductor; a function processor for applying a control function (F1(u1)) from a mathematical set of control functions to the electric characteristic values, and for determining controlled variables (y) for achieving the parameters; and coordination means for determining a control function (F1(u1)) from the set of control functions with the aid of operating states of the electrical power system. This system renders it possible to achieve a predictive tuned control of the electrical power control system which can also stabilize unusual operating states of the electrical power system.Type: GrantFiled: April 27, 2004Date of Patent: April 28, 2009Assignee: ABB Research LtdInventors: Christian Rehtanz, Dirk Westermann
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Publication number: 20080262758Abstract: The present disclosure is concerned with the reduction of an operational security margin of a power system without jeopardizing the safety of the power system or incurring heavy investments. According to the disclosure, a check for basic accuracy or correctness of a conventional State Estimation (SE) procedure allows to increase a level of confidence in the results of the procedure. To this end, an accuracy of the estimated states is verified by comparing the latter with the results (y, y?) of independent phasor measurements performed at selected locations of the power system. Unless a discrepancy is reported by this comparison, the results of the SE can be assumed to be sufficiently accurate, and any conservative or additional security margin intended to compensate for SE uncertainty can be relaxed. Hence, established trustworthiness in the estimated states allows increasing the transmitted power where the estimated states do indicate such a possibility, i.e.Type: ApplicationFiled: May 6, 2008Publication date: October 23, 2008Applicant: ABB TECHNOLOGY AGInventors: Christian REHTANZ, Andreas Suranyi, Joachim Bertsch, Marek Zima
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Patent number: 7200500Abstract: A method for determining an equivalent impedance of a transmission section of an electrical network, includes representing the transmission section as having at least two interfaces with other sections of the network. For each interface, a voltage phasor and a current phasor flowing through the interface are determined from simultaneously made measurements at the interfaces. From the phasors, the equivalent impedance is calculated. The required simultaneousness of the phasor measurements is achieved by means of Phasor Measurement Units (PMUs) that are synchronized via the Global Positioning System (GPS).Type: GrantFiled: September 29, 2003Date of Patent: April 3, 2007Assignee: ABB Research LtdInventors: Mats Larsson, Christian Rehtanz, Marek Zima
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Patent number: 7149637Abstract: The detection of electromechanical oscillations in power systems and the estimation of their frequency and damping parameters are based on a linear time-varying model. The parameters of the linear model are on-line adapted by means of Kalman filtering techniques to optimally approximate the measured signal representing the behavior of the power system based on a quadratic criterion. The estimated model parameters are then the basis for the calculation of parameters of the oscillations. Adaptive algorithms are based on a recursive calculation of the estimated parameter vector for each time-step based on the new value of the measured signal and the old values of the estimated parameters.Type: GrantFiled: June 18, 2004Date of Patent: December 12, 2006Assignee: ABB Research LtdInventors: Petr Korba, Mats Larsson, Christian Rehtanz
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Patent number: 7107162Abstract: In a method, computer program and system for determining an operational limit of a power transmission line, time-stamped current phasor information and voltage phasor information for a first end and a second end of the line are determined, an ohmic resistance of the line is computed from the phasor information, and an average line temperature is computed from the ohmic resistance. This allows to determine the average line temperature without dedicated temperature sensors. The average line temperature represents the actual average temperature and is largely independent of assumptions regarding line parameters.Type: GrantFiled: December 11, 2002Date of Patent: September 12, 2006Assignee: ABB Schweiz AGInventors: Marek Zima, Christian Rehtanz, Mats Larsson
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Patent number: 7096175Abstract: A method, device and computer program product for the prediction of the stability of an electric power network, where the method is executed after a fault or contingency has occurred, and comprises the steps of (a) during a time interval in which the network is in a transient condition, determining for at least one load connected to the electric power network, at least one parameter describing an estimated steady state behavior of the load, (b) executing a load flow calculation for the electric power network using the least one parameter describing the estimated steady state behavior the at least one load, (c) determining, if the load flow calculation indicates stability has a solution, that a future stability of the electrical power network exists, or, if the load flow calculation indicates instability does not have a solution, that a future stability of the electrical power network does not exist.Type: GrantFiled: May 14, 2002Date of Patent: August 22, 2006Assignee: ABB Research LTDInventors: Christian Rehtanz, Valentin Bürgler, Joachim Bertsch
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Patent number: 7069159Abstract: In a method, computer program and system for estimating a state of an electric power transmission network, time-stamped phasor measurements are made by phasor measurement units (1) located at a first set of locations (11,12) throughout the network, and a plurality of voltage and/or current phasors at a second set of locations is estimated, where the locations of the first (11,12) and second sets of locations are distant from one another, and a status of network elements (L4,L5,13) that are remotely located from the phasor measurement units is inferred from the phasor measurements and the estimated phasors. In a preferred variant of the invention, the network elements are transmission lines (L1 . . . L8), switchgear, under load tap changing transformers, compensation devices (13) or FACTS devices, and the status information describes whether a network element (L4,L5,13) is electrically connected to or disconnected from the network.Type: GrantFiled: December 9, 2002Date of Patent: June 27, 2006Assignee: ABB Research LtdInventors: Marek Zima, Christian Rehtanz
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Patent number: 6985800Abstract: For the control of an electric power transmission network, where local protection functions are implemented by a plurality of local protection devices (3,3a,3b,3b?,3c) located at a plurality of locations throughout the network, the following steps are executed measuring phasor data for voltages and currents at a plurality of locations (A,B) of the network, transmitting said phasor data to a central processing device (2), emulating, in the central processing device (2), protection functions that are implemented in the local protection devices (3,3a,3b,3b?,3c), and executing, in accordance with a given redundancy strategy, control commands that are issued redundantly by the local protection devices (3,3a,3b,3b?,3c) and by the central processing device (2). In a preferred variant of the invention, values of predetermined parameters that are used in the protection function, in particular protection threshold values, are adapted to measured values.Type: GrantFiled: October 31, 2003Date of Patent: January 10, 2006Assignee: ABB Research Ltd.Inventors: Christian Rehtanz, Martin Naedele, Joachim Bertsch
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Publication number: 20050222808Abstract: In a method, computer program and system for determining an operational limit of a power transmission line, time-stamped current phasor information and voltage phasor information for a first end and a second end of the line are determined, an ohmic resistance of the line is computed from the phasor information, and an average line temperature is computed from the ohmic resistance. This allows to determine the average line temperature without dedicated temperature sensors. The average line temperature represents the actual average temperature and is largely independent of assumptions regarding line parameters.Type: ApplicationFiled: December 11, 2002Publication date: October 6, 2005Applicant: ABB SCHWEIZ AGInventors: Marek Zima, Christian Rehtanz, Mats Larsson
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Publication number: 20050187726Abstract: The detection of electromechanical oscillations in power systems and the estimation of their parameters (frequency ƒ and damping ?) is based on a linear time-varying model. The parameters of the linear model are on-line adapted by means of Kalman filtering techniques to approximate the measured signal y (representing the behaviour of the power system) optimally in the sense of a quadratic criterion. The estimated model parameters are then the basis for the calculation of parameters of the oscillations. Adaptive algorithms are based on a recursive calculation of the estimated parameter vector for each time-step based on the new value of the measured signal and the old values of the estimated parameters. As opposed to the collection of data over a time window and then performing the parameter identification at once, any change in the system can thus be detected much faster.Type: ApplicationFiled: June 18, 2004Publication date: August 25, 2005Applicant: ABB Research Ltd.Inventors: Petr Korba, Mats Larsson, Christian Rehtanz
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Patent number: 6885915Abstract: The method according to the invention is based on a configuration model of a part of an electrical power distribution network, describing a totality of possible configurations of appliances. The configuration model is used to systematically produce (2) all the possible configurations which satisfy a predetermined set of functional requirements, in which case each possible configuration may have at least one associated characteristic value, and a solution configuration is defined which optimizes this characteristic value. It is thus possible to produce an optimum configuration automatically, without any need for expert knowledge about the appliances used in the configuration. In one preferred embodiment of the invention, a simulation model for simulation of a technical response of the solution configuration is produced automatically (3).Type: GrantFiled: June 5, 2002Date of Patent: April 26, 2005Assignee: ABB Research LTDInventors: Christian Rehtanz, Dirk Westermann, Peter Bosshart
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Publication number: 20040199298Abstract: The invention is directed toward an electrical power control system (1) in an electrical power system, having: a power control unit (2) for setting electric state variables and/or parameters in a current conductor, to be controlled, of the electrical power system, having: means (3) for detecting electric characteristic values (u1) of the current conductor; a function processor for applying a control function (F1(u1)) from a mathematical set of control functions to the electric characteristic values, and for determining controlled variables (y) for achieving the parameters; and coordination means for determining a control function (F1(u1)) from the set of control functions with the aid of operating states of the electrical power system. This system renders it possible to achieve a predictive tuned control of the electrical power control system which can also stabilize unusual operating states of the electrical power system.Type: ApplicationFiled: April 27, 2004Publication date: October 7, 2004Applicant: ABB Research Ltd.Inventors: Christian Rehtanz, Dirk Westermann
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Publication number: 20040090725Abstract: For the control of an electric power transmission network, where local protection functions are implemented by a plurality of local protection devices (3,3a,3b,3b′,3c) located at a plurality of locations throughout the network, the following steps are executedType: ApplicationFiled: October 31, 2003Publication date: May 13, 2004Applicant: ABB Research LtdInventors: Christian Rehtanz, Martin Naedele, Joachim Bertsch
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Publication number: 20040083087Abstract: In a method, computer program and data processing system for simulating an electrical power transmission network, a representation of the transmission network represents a power transmission section of the network linking a pair of buses, an internal network section (1) connected to said pair of buses and an external network section (2) comprising at least one adjoining network that is connected to the internal network section (1). A composite network section that comprises both the external and the internal network section is represented by a Ward equivalent circuit (6).Type: ApplicationFiled: October 14, 2003Publication date: April 29, 2004Applicant: ABB Research LtdInventors: Christian Rehtanz, Dirk Westermann
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Publication number: 20040073387Abstract: In a method, computer program and apparatus for determining parameters of an equivalent circuit representing a transmission section of an electrical network, the transmission section (4) is representable as having at least two interfaces (5,6,7) with other sections (1,2,3) of the network, and the method comprises the steps ofType: ApplicationFiled: September 29, 2003Publication date: April 15, 2004Applicant: ABB Research Ltd.Inventors: Mats Larsson, Christian Rehtanz, Marek Zima
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Patent number: 6690175Abstract: In a method and system for assessing the stability of an electric power transmission network, where at least one pair of measurements including a first and a second measurement point (P1,P2), each measurement point comprising a voltage and a current phasor, is processed and where a Thévenin impedance (Zt) and a present stability margin (dS(k)) value are computed, a validity indicator (v) is computed which depends on whether there is a difference between the first and second measurement points and whether there is a difference between corresponding estimated first and second load impedances (Za). From all validity indicators (v) associated with all of the at least one pair of measurements a quality indicator (q) is computed that is associated with the Thévenin impedance value (Zt) and with the present stability margin (dS(k)). The invention allows to continuously compute and output a present stability margin (dS(k)) value and to provide a measure (q) of its quality.Type: GrantFiled: November 26, 2001Date of Patent: February 10, 2004Assignee: ABB Schweiz AGInventors: Christian Pinzon, Joachim Bertsch, Christian Rehtanz
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Publication number: 20030120440Abstract: In a method, computer program and system for estimating a state of an electric power transmission network, time-stamped phasor measurements are made by phasor measurement units (1) located at a first set of locations (11,12) throughout the network, and a plurality of voltage and/or current phasors at a second set of locations is estimated, where the locations of the first (11,12) and second sets of locations are distant from one another, and a status of network elements (L4,L5,13) that are remotely located from the phasor measurement units is inferred from the phasor measurements and the estimated phasors.Type: ApplicationFiled: December 9, 2002Publication date: June 26, 2003Inventors: Marek Zima, Christian Rehtanz