Robert Bosch GmbH patent applications on September 26th, 2024
Patent Applications by Robert Bosch GmbH on September 26th, 2024
Robert Bosch GmbH: 23 patent applications
Robert Bosch GmbH has applied for patents in the areas of H01M8/0432 (3), H01M8/0438 (2), H01M8/04746 (2), A01G3/053 (1), H01L21/67 (1) A01G3/053 (1), G06N5/022 (1), H02K5/225 (1), H01P3/121 (1), H01M50/574 (1)
With keywords such as: device, guide, temperature, cell, fuel, signal, element, subsystem, unit, and blade in patent application abstracts.
Patent Applications by Robert Bosch GmbH
20240315175. Blade Arrangement for a Garden Tool_simplified_abstract_(robert bosch gmbh)
Inventor(s): Krisztian Gazsi of Miskolc (HU) for robert bosch gmbh
IPC Code(s): A01G3/053, A01G3/04
CPC Code(s): A01G3/053
Abstract: a blade arrangement for a garden tool is disclosed. the blade arrangement has a guide rail, a first blade bar that can be moved relative to the guide rail, and a cover. the first blade bar is guided so as to be displaceable in an oscillating manner. the guide rail is located between the cover and the first blade bar. the first blade bar has slotted holes. the guide rail has through-openings. the cover has screw bosses. the first blade bar is attached to the cover with screws. the screws are guided through the slotted holes of the first blade bar and the through-openings of the guide rail and screwed into an internal thread of the screw bosses.
Inventor(s): Mordechai KORNBLUTH of Brighton MA (US) for robert bosch gmbh
IPC Code(s): A47L15/00, A47L15/46
CPC Code(s): A47L15/0018
Abstract: a method for operating an electrical appliance during a religious observance period (e.g., the sabbath or a holiday). the method includes receiving via a controller a timer command indicative of a start time for operation of the electrical appliance. the method further includes activating via the controller operation of the electrical appliance in response to the timer command. the activating step is carried out independently of a door position of a door of the electrical appliance so that the electrical appliance is not activated using an electrical sensor or button.
Inventor(s): Thorsten Kuehn of Eislingen (DE) for robert bosch gmbh
IPC Code(s): B23D51/02
CPC Code(s): B23D51/027
Abstract: a saw blade guiding device for a saw, in particular a jig saw, includes at least one guide unit for guiding a saw blade of the saw in a sawing operation. the guide unit has two guide elements, which are provided to together form a guide holder for the saw blade, wherein a width of the guide holder is adjustable by the two guide elements. at least one guide element of the two guide elements has, on a side facing the other guide element, at least two guide faces, each of which is provided to form a side face of the guide holder. the at least two guide faces are offset with respect to one another at least substantially parallel to an extent of the width the guide holder.
Inventor(s): Sami Touhent of Moessingen (DE) for robert bosch gmbh
IPC Code(s): B23P23/06, B23Q7/14
CPC Code(s): B23P23/06
Abstract: a system for performing work processes on workpieces or the like. the system includes at least two first process stations for performing, in each case, a first work process on the workpiece or the like with a first process duration and at least one second process station for performing a second work process on the workpiece or the like with a second process duration, wherein the first process duration and the second process duration are of different lengths, and including a transport surface on which the workpieces or the like are movable individually on transport units by means of electromagnetic drives.
20240317219. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)
Inventor(s): Akira Sato of Kanagawa (JP) for robert bosch gmbh
IPC Code(s): B60W30/09, B60W10/06, B60W10/188, B60W30/095, B60W30/14
CPC Code(s): B60W30/09
Abstract: the present disclosure provides a controller and a control method that improve safety of saddled vehicles suitably.
20240317219. CONTROLLER AND CONTROL METHOD_simplified_abstract_(robert bosch gmbh)
Inventor(s): Akira Sato of Kanagawa (JP) for robert bosch gmbh
IPC Code(s): B60W30/09, B60W10/06, B60W10/188, B60W30/095, B60W30/14
CPC Code(s): B60W30/09
Abstract: according to the controller and the control method, a controller maneuvers a saddled vehicle that includes a first operation unit configured to accept a brake operation by a rider. the controller has a control section () and a determination section (). the control section () controls a deceleration of the saddled vehicle (). the determination section () determines possibility of causing a collision of the saddled vehicle () based on a surrounding environment information of the saddled vehicle (). the control section () initiates a first deceleration control, to control the deceleration, according to a first operation. the first operation is an operation in which the rider operates a second operation unit (r) to change a state of the second operation unit (r) from a reference state to a different state that is different from the reference state. the second operation unit (r) is different from the first operation unit (). the control section () terminates the first deceleration control according to a second operation. the second operation is an operation in which the rider operates the second operation unit (r) to return the state to the reference state during the first deceleration control. the control section () executes a second deceleration control, to control the deceleration, based on determination results of the determination section () about the possibility of causing the collision, the control section executes the second deceleration at least one point in a period from the termination of the first deceleration control to an initiation of operating the first operation unit () by the rider.
Inventor(s): Frederik Morlok of Wildberg Gueltlingen (DE) for robert bosch gmbh, Boris Kousselson of Plochingen (DE) for robert bosch gmbh, Julia Heroldt of Stuttgart (DE) for robert bosch gmbh, Panagiotis Kosioris of Urbach (DE) for robert bosch gmbh
IPC Code(s): B60W50/023
CPC Code(s): B60W50/023
Abstract: a system for providing an output signal based on a generated surroundings model of surroundings of a mobile platform is proposed. the system includes: a first subsystem, a second subsystem, wherein the second subsystem is configured to redundantly provide a functionality of the first subsystem, and a third subsystem, wherein the third subsystem is configured to redundantly provide the functionality of the first subsystem and/or of the second subsystem; a first comparison system, a second comparison system, wherein the first comparison system and/or the second comparison system are configured to detect at least one fault in the first subsystem and/or a fault in the second subsystem and/or a fault in the third subsystem and/or to identify the corresponding faulty subsystem.
20240317312. METHOD FOR ALIGNED PARKING OF A TRAILER_simplified_abstract_(robert bosch gmbh)
Inventor(s): Jacob Eiche of Muenchen (DE) for robert bosch gmbh, Udo Schulz of Vaihingen/Enz (DE) for robert bosch gmbh
IPC Code(s): B62D15/02, B60L15/20, B62D13/06
CPC Code(s): B62D15/0285
Abstract: a method for aligned parking of a trailer. the method includes: determining a topography of a ground surface of an environment of the trailer; determining a distance of contact points of at least two wheels of an axle of the trailer; determining at least one pair of target positions on the ground surface of the environment of the trailer, for transversely aligned parking of the trailer, on the basis of the distance of the contact points of the at least two wheels of the axle of the trailer and the topography of the ground surface of the environment of the trailer; and providing the at least one pair of target positions, for aligned parking of the trailer.
20240318584. METHOD FOR HEATING AN EXHAUST GAS SYSTEM_simplified_abstract_(robert bosch gmbh)
Inventor(s): Michael Bachner of Stuttgart (DE) for robert bosch gmbh, Marcel Alexander Schneck of Besigheim (DE) for robert bosch gmbh, Vandana Hegde of Korntal-Muenchingen (DE) for robert bosch gmbh
IPC Code(s): F01N3/20, F01N11/00
CPC Code(s): F01N3/2013
Abstract: a method for controlling heat transport within an exhaust gas system downstream of an internal combustion engine, wherein the exhaust gas system comprises at least one electrical heating device, at least one exhaust gas purification component, and at least one fluid transport device, wherein the method comprises, in an operating phase in which the internal combustion engine is not operated, determining at least one current temperature in the exhaust gas system, performing a comparison of the at least one determined current temperature or a temperature derived therefrom with a target temperature, and controlling the electrical heating device and/or the fluid transport device as a function of the result of the comparison. furthermore, a computing unit and a computer program for carrying out such a method are proposed.
Inventor(s): Nadezda FOMINA of Redwood City CA (US) for robert bosch gmbh, Christopher JOHNSON of San Carlos CA (US) for robert bosch gmbh, Young Shik SHIN of Mountain View CA (US) for robert bosch gmbh, Christoph LANG of Sunnyvale CA (US) for robert bosch gmbh
IPC Code(s): G01N33/544, G01N27/327, G01N33/84
CPC Code(s): G01N33/544
Abstract: a method for detecting an amount of an analyte in a solution includes providing an assay chamber including an electrode positioned at a first end of the assay chamber and a capture molecule attached to the electrode via a linker. a solution including an analyte, a binding partner of the analyte, at least one electrochemically active agent, and a detecting probe having a signaling tag attached thereto may be provided to the assay chamber. an electrical signal may be applied to the electrode to change the ph of the solution in the area near the electrode. the analyte may bind to the capture molecule and to the detecting probe at the first end of the assay chamber at the new ph. a signal produced by the signaling tag at the first end of the assay chamber may be measured to calculate the amount of the analyte in the solution.
Inventor(s): Jan Scheuing of Vellberg (DE) for robert bosch gmbh
IPC Code(s): G01P21/02, G01D5/244, G01P3/489
CPC Code(s): G01P21/02
Abstract: a method for determining a rotational frequency of a wheel, in particular of a motor vehicle, with the aid of a rotational speed sensor including an encoder wheel assigned to the wheel and a sensor element assigned to the encoder wheel, the encoder wheel having impulse sensors that are distributed uniformly over its circumference at a distance from one another, whose flanks are detected by the sensor element for determining the rotational frequency of the encoder wheel. in the method, for the purpose of compensating for a modulation of the rotational frequency caused by an eccentricity, the encoder wheel is divided into segments, a pulse frequency of detected signal impulses is ascertained and averaged for each segment, and as a function of the averaged pulse frequencies, modulation parameters are determined for correcting the rotational frequency.
Inventor(s): Alexander Artemenko of Ehningen (DE) for robert bosch gmbh, Karthik Muthineni of Stuttgart (DE) for robert bosch gmbh
IPC Code(s): G01S5/02, G01S13/00
CPC Code(s): G01S5/0273
Abstract: a method for processing data associated with at least one radio signal source, said method comprising: receiving at least one multi-path received signal associated with the radio signal source comprising signal components associated with different signal paths, determining at least one property of at least one of the signal components, providing position information characterizing at least one position of an apparatus receiving the at least one multi-path received signal, determining a position of the at least one radio signal source based on the at least one property of at least one of the signal components and on the position information.
Inventor(s): Sebastian Boblest of Duernau (DE) for robert bosch gmbh, Benjamin Wagner of Friedrichshafen (DE) for robert bosch gmbh, Duy Khoi Vo of Stuttgart (DE) for robert bosch gmbh, Ulrik Hjort of Malmo (SE) for robert bosch gmbh, Dennis Sebastian Rieber of Albstadt (DE) for robert bosch gmbh, Walid Hussien of Fellbach (DE) for robert bosch gmbh
IPC Code(s): G06N3/04
CPC Code(s): G06N3/04
Abstract: a method for providing a neural network on a data processing device. the method includes: ascertaining, from a set of implementation variants of the neural network, a subset with a plurality of implementation variants of the neural network, wherein each implementation variant of the subset cannot be improved with respect to any of main memory requirement, non-volatile memory requirement, and execution time, when executed on the data processing device, without impairing at least one of the other two, and the subset for each of main memory requirement, non-volatile memory requirement and execution time, when executed on the data processing device, contains at least one particular implementation variant that is optimal in this respect from the set of implementation variants; selecting one of the ascertained implementation variants according to a user input that specifies a selection from the subset; and storing the selected implementation variant in the data processing device.
Inventor(s): HyeongSik Kim of San Jose CA (US) for robert bosch gmbh, Andrew Le Clair of London (CA) for robert bosch gmbh
IPC Code(s): G06N5/022
CPC Code(s): G06N5/022
Abstract: a system and methods for event analysis are disclosed. the system and methods can be employed analyze at least one event data stream from a monitored system. the system and methods advantageously leverage a novel graph representation, referred to herein as a pattern knowledge graph (pkg), that captures common relationships between events in time-series event data, and can be used to predict possible future events that may occur in the monitored system.
Inventor(s): BURHANEDDIN YAMAN of San Jose CA (US) for robert bosch gmbh, CHUN HAO LIU of Redwood City CA (US) for robert bosch gmbh
IPC Code(s): G06V10/774, G06V10/764
CPC Code(s): G06V10/774
Abstract: an approach for handling long-tail distribution with data imbalance. disclosed embodiments improve repeat factor sampling methods by considering both images and bounding boxes (i.e., instances) to generate improved sets of training data. disclosed embodiments may be useful in image analysis domains, such as object detection and classification.
Inventor(s): Mirjam Henn of Ditzingen (DE) for robert bosch gmbh, Christian Huber of Ludwigsburg (DE) for robert bosch gmbh, Jens Baringhaus of Sindelfingen (DE) for robert bosch gmbh
IPC Code(s): H01L21/02, H01L21/67, H01L29/20
CPC Code(s): H01L21/02312
Abstract: a method for producing a low-defect interface between a gan semiconductor substrate and a gate dielectric of a gan power transistor. the method includes: introducing at least one gan semiconductor substrate into a device; generating a vacuum within the device; heating the device to a first temperature; performing a first temperature step at the first temperature, wherein a reactive medium is introduced into the device and has a first partial pressure; performing a second temperature step at a second temperature, wherein an inert medium is introduced into the device and has a second partial pressure, and generating the gate dielectric on the gan semiconductor substrate.
20240322033. VERTICAL POWER TRANSISTOR_simplified_abstract_(robert bosch gmbh)
Inventor(s): Dragos Costachescu of Reutlingen (DE) for robert bosch gmbh, Neil Davies of Sonnenbuehl-Genkingen (DE) for robert bosch gmbh
IPC Code(s): H01L29/78, H01L29/10, H01L29/40, H01L29/417
CPC Code(s): H01L29/7813
Abstract: a vertical power transistor having front and rear sides. the vertical power transistor includes a drift region that includes a first doping with a first charge carrier type, and a body region that includes a second doping with a second charge carrier type. the body region is situated on the drift region, and includes trenches that extend, starting from the front side, essentially perpendicularly into the drift region. first and second areas are situated between the trenches. the first areas are situated centrally between the trenches, and the second areas are situated between the first areas and the trenches. the first and second areas, starting from the body region, extend essentially perpendicularly into the drift region. the first areas include a third doping with the second charge carrier type, and the second areas include the first doping with the first charge carrier type.
Inventor(s): Timo Bosch of Renningen (DE) for robert bosch gmbh, Tobias Falkenau of Esslingen (DE) for robert bosch gmbh
IPC Code(s): H01M8/0432, H01M8/04119, H01M8/04492, H01M8/04746
CPC Code(s): H01M8/04328
Abstract: the invention relates to a method for operating a fuel cell system comprising a fuel cell stack (), wherein an anode gas containing fresh and recirculated hydrogen is fed to an anode () in the fuel cell stack () via an anode circuit (), and liquid water contained in the anode gas is separated by means of a water separator () integrated into the anode circuit (), is collected in a container (), and is removed from the system by intermittently opening a drain valve (). according to the invention, in order to detect whether the container () is full, the actual temperature of the anode gas in the inlet area () of the anode () in the fuel cell stack () is compared with a desired temperature. if the actual temperature is lower than the desired temperature, the container () is considered to be full and the drain valve () is opened.
Inventor(s): Timo Bosch of Renningen (DE) for robert bosch gmbh, Tobias Falkenau of Esslingen (DE) for robert bosch gmbh
IPC Code(s): H01M8/0432, H01M8/04119, H01M8/04492, H01M8/04746
CPC Code(s): H01M8/04328
Abstract: the invention further relates to a control device for carrying out the method or individual method steps.
20240322204. METHOD FOR OPERATING A FUEL CELL SYSTEM_simplified_abstract_(robert bosch gmbh)
Inventor(s): Jonas Breitinger of Stuttgart (DE) for robert bosch gmbh, Matthias Rink of Herrenberg (DE) for robert bosch gmbh
IPC Code(s): H01M8/0432, H01M8/04302, H01M8/0438, H01M8/04537, H01M8/04701
CPC Code(s): H01M8/04358
Abstract: the invention relates to a method for operating a fuel cell system () comprising at least one stack () when starting the fuel cell system (), in particular when during a cold start of the fuel cell system and/or start of the fuel cell system () under freezing conditions, in order to bring, in particular to adjust, a coolant temperature (tcoolin) at the entry point into the stack () to a desired stagnation temperature (ts), the method comprising the following steps:
Inventor(s): Helerson Kemmer of Vaihingen (DE) for robert bosch gmbh, Matthias Rink of Herrenberg (DE) for robert bosch gmbh
IPC Code(s): H01M8/0438, H01M8/04223, H01M8/04303, H01M8/0432, H01M8/04746
CPC Code(s): H01M8/04417
Abstract: the invention relates to a method for operating a fuel cell system (), comprising a fuel cell stack (), which has a plurality of fuel cells and through which cooling channels extend, which are fed a coolant via a cooling circuit () by means of a coolant pump (). according to the invention, in the event of a start under cold or freezing conditions the temperature of the fuel cells in the fuel cell stack () is measured indirectly by means of the pressure difference (�p) of the coolant across the fuel cell stack () and the rotational speed (n) of the coolant pump () is controlled in accordance with the indirectly measured temperature.
Inventor(s): Helerson Kemmer of Vaihingen (DE) for robert bosch gmbh, Matthias Rink of Herrenberg (DE) for robert bosch gmbh
IPC Code(s): H01M8/0438, H01M8/04223, H01M8/04303, H01M8/0432, H01M8/04746
CPC Code(s): H01M8/04417
Abstract: the invention also relates to a control device for a fuel cell system ().
Inventor(s): Anton Zwahr of Reutlingen (DE) for robert bosch gmbh, Holger Wernerus of Pliezhausen (DE) for robert bosch gmbh
IPC Code(s): H01M50/574, H01H85/00, H01H85/02
CPC Code(s): H01M50/574
Abstract: a fuse device for at least one battery cell includes (i) a fuse element for interrupting a current flow from the battery cell in a critical state of the battery cell, (ii) a heating unit, which is connected, in particular electrically and/or thermally and/or mechanically, to the fuse element, and is provided to assist a triggering of the fuse element, (iii) a control unit for activating the heating unit in the critical state, and (iv) at least one carrier element for receiving the fuse element and at least one heating element of the heating unit.
Inventor(s): Alexander Fischer of Untergruppenbach (DE) for robert bosch gmbh, Andreas Kugler of Alfdorf (DE) for robert bosch gmbh, Armin Himmelstoss of Weissach Im Tal (DE) for robert bosch gmbh
IPC Code(s): H01P3/12, H01P11/00
CPC Code(s): H01P3/121
Abstract: a waveguide segment for microwave antennas. the waveguide segment is embodied as an injection-molded part that is metallized with a solderable metal surface.
Inventor(s): Benjamin Haufe of Obersulm Willsbach (DE) for robert bosch gmbh, Konstantin Haberkorn of Stuttgart (DE) for robert bosch gmbh
IPC Code(s): H02K5/22, B60T13/74, F15B15/18
CPC Code(s): H02K5/225
Abstract: a drive device. the drive device includes an electric machine arranged in a housing. the electric machine comprises a rotatably mounted rotor and a stator, which is fixed to the housing and comprises a motor winding, comprising at least one motor phase supply line electrically connected to the motor winding. the motor phase supply line comprises a contact portion, which protrudes from the housing and is electrically connected or connectable to a control device. an insulation element radially surrounds the contact portion at least in sections. the contact portion is integrally formed and the insulation element is slid onto the contact portion.
Inventor(s): Erik Weissenborn of Geratal Ot Gossel (DE) for robert bosch gmbh, Marco Graf of Tamm (DE) for robert bosch gmbh, Martin Hennen of Stuttgart (DE) for robert bosch gmbh, Volker Gilgenbach of Schwieberdingen (DE) for robert bosch gmbh
IPC Code(s): H02P29/10
CPC Code(s): H02P29/10
Abstract: the invention relates to a control device () for a drive system () which has an electric motor () electrically connected by a power electronics unit () to an electrical power storage device (), the control device () having a computing unit () and a plurality of gate driver circuits () and being designed to set a safe operational state in the power electronics unit () when a fault in the drive system () and/or the control device () is detected. the computing unit () is designed to determine a control instruction in accordance with a current actual rotational speed (n) of the motor () and to store the control instruction in the gate driver circuits (), and the gate driver circuits () set the safe operational state according to the stored control instruction when a fault is detected.
Robert Bosch GmbH patent applications on September 26th, 2024
- Robert Bosch GmbH
- A01G3/053
- A01G3/04
- CPC A01G3/053
- Robert bosch gmbh
- A47L15/00
- A47L15/46
- CPC A47L15/0018
- B23D51/02
- CPC B23D51/027
- B23P23/06
- B23Q7/14
- CPC B23P23/06
- B60W30/09
- B60W10/06
- B60W10/188
- B60W30/095
- B60W30/14
- CPC B60W30/09
- B60W50/023
- CPC B60W50/023
- B62D15/02
- B60L15/20
- B62D13/06
- CPC B62D15/0285
- F01N3/20
- F01N11/00
- CPC F01N3/2013
- G01N33/544
- G01N27/327
- G01N33/84
- CPC G01N33/544
- G01P21/02
- G01D5/244
- G01P3/489
- CPC G01P21/02
- G01S5/02
- G01S13/00
- CPC G01S5/0273
- G06N3/04
- CPC G06N3/04
- G06N5/022
- CPC G06N5/022
- G06V10/774
- G06V10/764
- CPC G06V10/774
- H01L21/02
- H01L21/67
- H01L29/20
- CPC H01L21/02312
- H01L29/78
- H01L29/10
- H01L29/40
- H01L29/417
- CPC H01L29/7813
- H01M8/0432
- H01M8/04119
- H01M8/04492
- H01M8/04746
- CPC H01M8/04328
- H01M8/04302
- H01M8/0438
- H01M8/04537
- H01M8/04701
- CPC H01M8/04358
- H01M8/04223
- H01M8/04303
- CPC H01M8/04417
- H01M50/574
- H01H85/00
- H01H85/02
- CPC H01M50/574
- H01P3/12
- H01P11/00
- CPC H01P3/121
- H02K5/22
- B60T13/74
- F15B15/18
- CPC H02K5/225
- H02P29/10
- CPC H02P29/10
