Patents by Inventor Crijn Bouman
Crijn Bouman 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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Patent number: 11801761Abstract: A charging system for electric vehicles is disclosed, which includes at least one charging port with an interface for power exchange with at least one electric vehicle, and at least one power converter for converting power from a power source such as a power grid to a suitable format for charging the vehicle. The power converter can be at a remote location from the charging port, such as a separate room, and/or a separate building.Type: GrantFiled: March 23, 2018Date of Patent: October 31, 2023Assignee: ABB B.V.Inventor: Crijn Bouman
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Publication number: 20230234463Abstract: The present invention relates to a device for positioning a charger connector, in particular relative to a vehicle contra connector, comprising a suspension for a charging cable assembly, connected at one end to the charger connector, the suspension comprising a first suspension point, for clamping, at a point remote from the one end, the charging cable assembly in a predetermined orientation and position, which orientation and position together with the rigidity of the cable assembly and the gravity acting on the cable assembly define a preferred position and/or a preferred orientation of the one end; and a second suspension point, for engaging the charging cable assembly at the one end of the charger connector; Wherein the second suspension point comprises a manipulator for manipulating the position and/or the orientation of the charger connector relative to the fixed world, in a range around the preferred position and/or the preferred orientation of the one end of the cable assembly.Type: ApplicationFiled: June 30, 2021Publication date: July 27, 2023Inventors: Johannes Oosten Van Der Weijde, Guus Nico Paris, Crijn Bouman
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Publication number: 20230108220Abstract: The invention relates to a method for controlling a charging infrastructure comprising a charging station for charging a vehicle having a vehicle-side charging interface, wherein the charging station comprises a robot that carries a robot-side charging interface for establishing a charging connection with the vehicle-side charging interface, wherein the robot comprises a main base and a compliance assembly that is arranged kinematically between the main base and the robot-side charging interface for providing a compliance, wherein the method comprises in series a positioning phase in which the robot-side charging interface is moved to an initial connecting position, and a connecting phase in which the robot-side charging interface establishes a charging connection with the vehicle-side charging interface, wherein in the positioning phase a compliance value is compared with a positioning intervention value and a positioning instruction is changed when the compliance value exceeds a positioning intervention valType: ApplicationFiled: February 19, 2021Publication date: April 6, 2023Inventors: Johannes Oosten Van Der Weijde, Kanter Van Deurzen, Crijn Bouman
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Publication number: 20220212551Abstract: A charging system for electric vehicles is disclosed, which includes at least one charging port with an interface for power exchange with at least one electric vehicle, and at least one power converter for converting power from a power source such as a power grid to a suitable format for charging the vehicle. The power converter can be at a remote location from the charging port, such as a separate room, and/or a separate building.Type: ApplicationFiled: March 24, 2022Publication date: July 7, 2022Inventor: Crijn Bouman
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Publication number: 20180212438Abstract: A charging system for electric vehicles is disclosed, which includes at least one charging port with an interface for power exchange with at least one electric vehicle, and at least one power converter for converting power from a power source such as a power grid to a suitable format for charging the vehicle. The power converter can be at a remote location from the charging port, such as a separate room, and/or a separate building.Type: ApplicationFiled: March 23, 2018Publication date: July 26, 2018Inventor: Crijn Bouman
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Patent number: 9371008Abstract: Energy exchange station for a battery of an electric vehicle, comprising at least one power output for a vehicle, means for determining whether a vehicle coupled to the at least one power output is able to be charged with an AC voltage and/or a DC voltage, a plurality of power inputs, comprising at least one AC power input; and at least one DC power input and at least one controllable switch, for switching the at least one power output to any of the power inputs a controller for the switch, for controlling the switch at least based on the determination.Type: GrantFiled: March 3, 2011Date of Patent: June 21, 2016Assignee: ABB B.V.Inventor: Crijn Bouman
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Patent number: 9248753Abstract: A method is disclosed for charging an electric vehicle, which includes determining a suitable charge algorithm for charging the electric vehicle, providing the charger with the algorithm and charging the electric vehicle according to the algorithm. A charger for an electric vehicle can be configured to have an updatable charging algorithm set, such as a charger configured for receiving and executing charging algorithms in the form of an executable script. Parameters for the charging algorithm may be received from a different source than the algorithm.Type: GrantFiled: December 5, 2011Date of Patent: February 2, 2016Assignee: ABB B.V.Inventor: Crijn Bouman
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Patent number: 9209638Abstract: A network of chargers for a battery of an electric vehicle is disclosed, having a 1st power connection, a power converter, a 2nd power connection and at least a 3rd power connection for exchanging power with another charger. A controller is provided for controlling a power switch, and is configured to: connect the power converter to the 2nd power connection when a vehicle is to be charged from the power source, connect the power converter to the at least one 3rd power connection when power is to be delivered to another charger, and connect the at least one 3rd power connection to the 2nd power connection when power from another charger is to be delivered to the vehicle.Type: GrantFiled: July 4, 2011Date of Patent: December 8, 2015Assignee: ABB B.V.Inventor: Crijn Bouman
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Publication number: 20150165917Abstract: The present invention relates to a method, a charge controller, a charger and charging system for charging a battery of an electric vehicle, which can include a) determining a priority for each port where an electric vehicle is connected, b) assigning a maximum available power budget to a port with first priority, c) performing a charge session at the port with the first priority, d) monitoring actual power delivered to the vehicle from the priority port, e) adjusting the power budget value of the priority port depending on the actual power delivered to the vehicle and f) assigning a remaining portion of the power budget to the port with the second highest priority, g) if the power budget exceeds a predetermined threshold value, starting or restarting a charge session at the port where the remaining portion of the power budget is assigned, and h) repeating steps e-h.Type: ApplicationFiled: December 18, 2012Publication date: June 18, 2015Applicant: ABB B.V.Inventors: Egbert Wouter Joghum Robers, Lars Peter Bech, Crijn Bouman, Ali Ugur, Martijn Halbo Dirkse, Marcus Van De Veerdonk
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Publication number: 20140266047Abstract: The present invention relates to a charger for charging the battery of an electric vehicle, comprising at least one port for exchanging electric power and/or data with a vehicle during a charge session, first data communication means, for saving information regarding the charge session to a data storage location, second data communication means, for communicating a reference for obtaining access to the data storage location comprising the information regarding said charge session to an external device.Type: ApplicationFiled: October 8, 2012Publication date: September 18, 2014Inventors: Egbert Wouter Joghum Robers, Crijn Bouman, Ali Ugur, Evelinde Van Dorp, Robert Tyrell
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Publication number: 20130314043Abstract: A method is disclosed for charging an electric vehicle, which includes determining a suitable charge algorithm for charging the electric vehicle, providing the charger with the algorithm and charging the electric vehicle according to the algorithm. A charger for an electric vehicle can be configured to have an updatable charging algorithm set, such as a charger configured for receiving and executing charging algorithms in the form of an executable script. Parameters for the charging algorithm may be received from a different source than the algorithm.Type: ApplicationFiled: December 5, 2011Publication date: November 28, 2013Applicant: ABB B.V.Inventor: Crijn Bouman
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Publication number: 20130187602Abstract: A network of chargers for a battery of an electric vehicle is disclosed, having a 1st power connection, a power converter, a 2nd power connection and at least a 3rd power connection for exchanging power with another charger. A controller is provided for controlling a power switch, and is configured to: connect the power converter to the 2nd power connection when a vehicle is to be charged from the power source, connect the power converter to the at least one 3rd power connection when power is to be delivered to another charger, and connect the at least one 3rd power connection to the 2nd power connection when power from another charger is to be delivered to the vehicle.Type: ApplicationFiled: July 4, 2011Publication date: July 25, 2013Applicant: ABB B.V.Inventor: Crijn Bouman
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Publication number: 20130103191Abstract: The invention relates to a system for exchanging energy with an electric vehicle, in particular with a battery thereof, comprising, at least one energy exchange station, comprising, at least one port for exchanging energy with an energy source, at least one port for exchanging energy with a vehicle, at least one port for data communication with the vehicle, at least one port for data communication with a data processing device, a data processing device, comprising, at least one port for data communication with the energy exchange station, at least one port for data communication with at least one configuration device, at least one configuration device, comprising, at least one port for exchanging data with the data processing device; and means, such as a user interface, for editing configuration details. The invention further relates to a method and devices for exchanging energy with an electric vehicle.Type: ApplicationFiled: February 22, 2011Publication date: April 25, 2013Applicant: ABB B.V.Inventor: Crijn Bouman
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Publication number: 20130049677Abstract: Energy exchange station for a battery of an electric vehicle, comprising at least one power output for a vehicle, means for determining whether a vehicle coupled to the at least one power output is able to be charged with an AC voltage and/or a DC voltage, a plurality of power inputs, comprising at least one AC power input; and at least one DC power input and at least one controllable switch, for switching the at least one power output to any of the power inputs a controller for the switch, for controlling the switch at least based on the determination.Type: ApplicationFiled: March 3, 2011Publication date: February 28, 2013Applicant: ABB B,V,Inventor: Crijn Bouman
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Patent number: D889397Type: GrantFiled: February 21, 2018Date of Patent: July 7, 2020Assignee: ABB Schweiz AGInventors: Crijn Bouman, Evelinde Van Dorp, Robert Bruining, Rolf Bilderbeek, Werner Marinelli