Patent Applications by Robert Bosch GmbH on August 1st, 2024

Robert Bosch GmbH: 23 patent applications

Robert Bosch GmbH has applied for patents in the areas of B01D53/96 (2), H02K3/50 (2), H02K3/24 (2), B01D53/04 (2), B01D53/62 (2) B01D53/965 (2), H02K3/24 (2), G06N3/092 (1), H01S5/02257 (1), H01M50/296 (1)

With keywords such as: device, stator, brake, data, groove, vehicle, component, laser, diode, and housing in patent application abstracts.

Patent Applications by Robert Bosch GmbH

20240252983. ATMOSPHERIC CARBON DIOXIDE CAPTURE SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniil A. KITCHAEV of Brookline MA (US) for robert bosch gmbh, Yelena GORLIN of Mountain View CA (US) for robert bosch gmbh, Charles TUFFILE of Swansea MA (US) for robert bosch gmbh

IPC Code(s): B01D53/96, B01D53/04, B01D53/62, B01D53/82

CPC Code(s): B01D53/965

Abstract: an atmospheric cocapture system includes a compartment housing a solid cosorbent, an exchange fluid including a chemical component with selectivity towards co, and an electrochemical cell in fluid communication with the compartment, the system having a cycle including a first state of sorbing cofrom incoming air onto the solid cosorbent until a saturation point is reached; a second state of regenerating the sorbent by flooding the compartment with the exchange fluid to detach cofrom the saturated sorbent and bind the detached coto the chemical component; and a third state of regenerating the chemical component by detaching cofrom the chemical component in the electrochemical cell and releasing the cofrom the system.

20240252984. ATMOSPHERIC CARBON DIOXIDE CAPTURE SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniil A KITCHAEV of Brookline MA (US) for robert bosch gmbh

IPC Code(s): B01D53/96, B01D53/04, B01D53/62, B01D53/82, B01J20/22, B01J20/34

CPC Code(s): B01D53/965

Abstract: an atmospheric cocapture system includes a compartment housing a solid cosorbent, an exchange fluid including a chemical component with selectivity towards co, and an electrochemical cell in fluid communication with the compartment, the system having a cycle including a first state of sorbing cofrom incoming air onto the solid cosorbent until a saturation point is reached; a second state of regenerating the sorbent by flooding the compartment with the exchange fluid to detach cofrom the saturated sorbent and bind the detached coto the chemical component; and a third state of regenerating the chemical component by detaching cofrom the chemical component in the electrochemical cell and releasing the cofrom the system.

20240253471. BRAKE DEVICE FOR A VEHICLE AND METHOD FOR OPERATING A BRAKE DEVICE FOR A VEHICLE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Florian Haag of Ellhofen (DE) for robert bosch gmbh, Martin Marquart of Reichenbach (DE) for robert bosch gmbh, Nikolas Loeffemann of Dielheim (DE) for robert bosch gmbh

IPC Code(s): B60L7/26

CPC Code(s): B60L7/26

Abstract: a brake device for a vehicle. the brake device includes a controller, which is connected to a brake actuator device. the controller is configured to ascertain an operating state of an electric machine in generator mode and a second brake torque, which can be generated by the electric machine, and to operate the brake actuator device in generator mode as a function of the operating state. a specified total brake torque on the vehicle can be generated as the sum of the second brake torque and a first brake torque of the brake actuator device. the controller is configured to reduce or increase the generated first brake torque of the brake actuator device to maintain a specified value range of an operating parameter of the brake actuator device and/or to provide, together with the second brake torque, at least the specified total brake torque on the vehicle.

20240253508. AUTOMATED MANAGEMENT OF ELECTRIC VEHICLES AND CHARGING INFRASTRUCTURE IN HIGH-DEMAND CONDITIONS_simplified_abstract_(robert bosch gmbh)

Inventor(s): Shyam Jade of Plymouth MI (US) for robert bosch gmbh, Ziheng Pan of Farmington Hills MI (US) for robert bosch gmbh, Sergio Arturo Garcia Ortega of San Luis Potosi (MX) for robert bosch gmbh

IPC Code(s): B60L53/63, B60L53/302, B60L53/53, B60L53/62, B60L53/66, B60L53/67, B60L53/80, G05B19/042

CPC Code(s): B60L53/63

Abstract: a system for managing electric vehicles and charging infrastructure in high-demand conditions. an example system includes a cloud-based policy administration component configured to identify the impacted area, estimate the charging demand in that area during the traffic event, and deploy mitigating policies to electric vehicles and charging stations in the area. example responsive actions corresponding to the mitigating policies deployed to the charging stations include preparing the charging and cooling equipment to meet the estimated charging demand, charging stationary storage batteries for mitigating estimated power-demand spikes corresponding to the estimated charging demand, and charging an inventory of swappable battery packs to meet estimated battery-swap demand corresponding to the estimated charging demand. example responsive actions corresponding to the mitigating policies deployed to individual electric vehicles enable optimal matching of the vehicles to the charging stations.

20240253609. PREDICTION SYSTEM AND PREDICTION METHOD FOR AT LEAST ONE BRAKE SYSTEM COMPONENT OF A BRAKE SYSTEM OF A VEHICLE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Michael Zeutzius of Tamm (DE) for robert bosch gmbh

IPC Code(s): B60T17/22

CPC Code(s): B60T17/22

Abstract: a prediction system and a prediction method for at least one brake system component of a brake system of a vehicle by ascertaining value groups of in each case at least two different variables during at least one driver-induced and/or autonomous braking process of the vehicle, the at least two variables of the same value group are ascertained simultaneously and in a braking situation in which at least one of the variables lies outside its respective specified normal value range and/or a temporal derivative of at least one of the variables lies outside a quasi-static range respectively specified for the respective variable, and estimating, using the ascertained value groups, whether the occurrence of at least one functional impairment of at least the one brake system component of the brake system is probable at least during a specified prediction time interval.

20240253612. METHOD FOR CALCULATING AN ANTICIPATED VEHICLE TRAJECTORY CURVE, METHOD FOR CONTROLLING A VEHICLE FUNCTION, AND VEHICLE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Stopper of Tuebingen (DE) for robert bosch gmbh, Marius Wolf of Pforzheim (DE) for robert bosch gmbh

IPC Code(s): B60W10/18, B60W30/18, B60W40/072, B60W50/00

CPC Code(s): B60W10/18

Abstract: a method for calculating an anticipated vehicle trajectory curve of a vehicle while cornering by means of a trajectory calculation model based on calculation parameters based upon a vehicle trajectory curve already performed by the vehicle. the method includes: ascertaining the translational vehicular velocity of the vehicle as the first parameter of the calculation parameters, ascertaining the vehicle angular velocity varying over time of the vehicle as a further second parameter of the calculation parameters, providing the trajectory calculation model, inputting the first and second parameters into the trajectory calculation model, calculating the anticipated vehicle trajectory curve of the vehicle using the trajectory calculation model, at least on the basis of the first parameter and the time-dependent second parameter.

20240253647. METHOD AND DEVICE FOR CAPTURING INFORMATION OF A DRIVER ASSISTANCE SYSTEM_simplified_abstract_(robert bosch gmbh)

Inventor(s): Christian Pampus of Leonberg (DE) for robert bosch gmbh, Nicolas Velz of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): B60W50/04, B60W30/06

CPC Code(s): B60W50/04

Abstract: a method and a device for capturing information of a parking assistance system of a vehicle. the method includes storing of information which is used during operation of the parking assistance system in a memory; provision of a parking assistance function by the parking assistance system; detecting whether a condition, of one or more predefined conditions, is fulfilled, and an at least partial provision of the information stored in the memory in response to the condition being fulfilled.

20240254948. GAS INJECTOR WITH DAMPING DEVICE, ESPECIALLY FOR SHORT STROKES_simplified_abstract_(robert bosch gmbh)

Inventor(s): Martin MUELLER of Moeglingen (DE) for robert bosch gmbh

IPC Code(s): F02M21/02, F02M51/06

CPC Code(s): F02M21/0254

Abstract: a gas injector for injecting a gaseous fuel. the gas injector includes a magnetic actuator having an armature, an inner pole, and a coil, a closing element which opens and closes off a gas path at a sealing seat, the armature being operatively connected to the closing element, a sealed lubricant chamber filled with a lubricant and in which the armature is arranged, wherein the lubricant ensures lubrication of the armature, and a brake device which is arranged in the lubricant chamber and is designed to brake the closing element when the gas injector is reset from the open state to the closed state. the brake device has a brake pin, a damping chamber filled with lubricant and fluidically connected to the lubricant chamber via a first fluid path, a resilient brake element, an armature pin which is operatively connected to the armature and includes a guide disk.

20240255109. FUEL CELL SYSTEM, GAS TANK DEVICE AND SHUT-OFF VALVE FOR A GAS TANK DEVICE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Andreas Rau of Stuttgart (DE) for robert bosch gmbh, Joachim Soubari of Ettlingen (DE) for robert bosch gmbh, Udo Schaich of Stuttgart (DE) for robert bosch gmbh

IPC Code(s): F17C13/04

CPC Code(s): F17C13/04

Abstract: the invention relates to a shut-off valve comprising: a housing which has an inlet opening, an outlet opening and a control opening, wherein the housing defines an inner space extending along a longitudinal axis and has a partition which divides the inner space into an outlet chamber and a control chamber and has a guide hole which extends between the outlet chamber and the control chamber; an electrical coil which is accommodated in the partition and surrounds the guide hole; a servo valve needle which is arranged in the control chamber, is preloaded along the longitudinal axis into a closed position in which it seals the control opening, and can be moved, by means of a magnetic field which can be generated by the coil, into an open position in which it exposes the control opening and abuts the partition, wherein the servo valve needle has a connecting channel which connects the control chamber to the guide hole in the open position of the servo valve needle; and a main valve needle which is movably guided in the guide hole along the longitudinal axis, is preloaded along the longitudinal axis into a closed position in which it seals the outlet opening, and, when the servo valve needle is arranged in its open position, can be moved, by means of the magnetic field which can be generated by the coil, into an open position in which it exposes the outlet opening.

20240255297. COMPUTER-IMPLEMENTED METHOD FOR BEHAVIOR PLANNING OF AN AT LEAST PARTIALLY AUTOMATED EGO VEHICLE WITH A SPECIFIED NAVIGATION DESTINATION_simplified_abstract_(robert bosch gmbh)

Inventor(s): Marcel Hallgarten of Ehningen (DE) for robert bosch gmbh, Martin Stoll of Renningen (DE) for robert bosch gmbh

IPC Code(s): G01C21/34, B60W60/00, G01C21/36

CPC Code(s): G01C21/3492

Abstract: a computer-implemented method for behavior planning of an at least partially automated ego vehicle having a specified navigation destination. the method includes: generating a graph-based scene representation of the current traffic scene, wherein the graph of the scene representation is defined by a set of nodes and directed edges, each directed edge connecting exactly two nodes, wherein the nodes and/or the edges are associated with map information, and wherein each directed edge is associated with a transition probability for a correspondingly directed transition of the ego vehicle between the connected nodes; planning driving maneuvers, taking into account a future development of the traffic scene. at least a portion of the generated transition probabilities of the scene representation is modified with respect to the specified navigation destination, and that the scene representation having the modified transition probabilities is used for the planning.

20240255426. Apparatus, Device and Method for Irradiating an in Particular Biological Specimen with a Holographic Optical Component_simplified_abstract_(robert bosch gmbh)

Inventor(s): Reinhold Fiess of Durbach (DE) for robert bosch gmbh, Eugen Baumgart of Bad Teinach-Zavelstein (DE) for robert bosch gmbh, Ingo Ramsteiner of Ettlingen (DE) for robert bosch gmbh

IPC Code(s): G01N21/64, C12Q1/686, G02B5/32

CPC Code(s): G01N21/645

Abstract: an apparatus for irradiating an in particular biological sample, includes a first light source, a second light source, and at least one holographic optical component. the first light source, the second light source, and the holographic optical component are positioned relative to one another in such a way that first light from the first light source and second light from the second light source are deflected via the holographic optical component onto a common specimen region for irradiation of the specimen.

20240255941. Method and System to Predict Remaining Useful Life of an Equipment_simplified_abstract_(robert bosch gmbh)

Inventor(s): Prasad Gayathri of Bangalore (IN) for robert bosch gmbh, Varun Balachandra of Bangalore (IN) for robert bosch gmbh

IPC Code(s): G05B23/02

CPC Code(s): G05B23/0283

Abstract: a system to predict a remaining useful life of an equipment includes a processor configured to receive signals from sensors of the equipment, extract features from sensor data of the sensors, and obtain a health indicator from the extracted features by principal component analysis. the processor is further configured to determine a critical time beyond which the degradation initiates in the equipment using pautas criteria, predict a future degradation curve, and determine a dynamic failure threshold based on degradation characteristics of the equipment. the dynamic failure threshold is determined in real time based on degradation parameters unique to the equipment.

20240256887. METHOD AND APPARATUS FOR TRAINING NEURAL NETWORK FOR IMITATING DEMONSTRATOR'S BEHAVIOR_simplified_abstract_(robert bosch gmbh)

Inventor(s): Mingxuan Jing of Beijing (CN) for robert bosch gmbh, Fuchun Sun of Beijing (CN) for robert bosch gmbh, Lei Li of Beijing (CN) for robert bosch gmbh, Wenbing Huang of Beijing (CN) for robert bosch gmbh, Xiaojian Ma of Beijing (CN) for robert bosch gmbh, Ze Cheng of Shanghai (CN) for robert bosch gmbh

IPC Code(s): G06N3/092

CPC Code(s): G06N3/092

Abstract: a method for training a neural network (nn) model for imitating demonstrator's behavior. the method includes: obtaining demonstration data representing the demonstrator's behavior for performing a task, the demonstration data includes state data, action data and option data, wherein the state data correspond to a condition for performing the task, the option data correspond to subtasks of the task, and the action data correspond to the demonstrator's actions performed for the task; sampling learner data representing the nn model's behavior for performing the task based on a current learned policy; and updating the policy by using a generative adversarial imitation learning (gail) process based on the demonstration data and the learner data.

20240256889. METHOD AND APPARATUS FOR DEEP LEARNING_simplified_abstract_(robert bosch gmbh)

Inventor(s): Hang Su of Beijing (CN) for robert bosch gmbh, Jun Zhu of Beijing (CN) for robert bosch gmbh, Tianyu Pang of Beijing (CN) for robert bosch gmbh, Xiao Yang of Beijing (CN) for robert bosch gmbh, Yinpeng Dong of Beijing (CN) for robert bosch gmbh, Zhijie Deng of Beijing (CN) for robert bosch gmbh, Ze Cheng of Shanghai (CN) for robert bosch gmbh

IPC Code(s): G06N3/094

CPC Code(s): G06N3/094

Abstract: a method for deep learning. the method includes: receiving, by a deep learning model, a plurality of samples and a plurality of labels corresponding to the plurality of samples; adversarially augmenting, by the deep learning model, the plurality of samples based on a threat model; and assigning, by the deep learning model, a low predictive confidence to one or more adversarially augmented samples of the plurality of adversarially augmented samples having noisy labels due to the adversarially augmenting based on the threat model.

20240256961. Method for Generating a Training Dataset, Method for Training an Artificial Intelligence Means, Artificial Intelligence Means, and Hand-Held Power Tool_simplified_abstract_(robert bosch gmbh)

Inventor(s): Andreas Frischen of Leonberg (DE) for robert bosch gmbh, Bernhard Hegemann of Filderstadt (DE) for robert bosch gmbh, Dimetric Armand Tadah Teguetio of Stuttgart-Stammheim (DE) for robert bosch gmbh, Jan Doepner of Heidelberg (DE) for robert bosch gmbh, Jan Linus Steuler of Woelfersheim (DE) for robert bosch gmbh, Lars Beseke of Stuttgart (DE) for robert bosch gmbh, Manuel Peter of Schweigen-Rechtenbach (DE) for robert bosch gmbh, Uwe Troeltzsch of Roesrath (DE) for robert bosch gmbh

IPC Code(s): G06N20/00, B25F5/00

CPC Code(s): G06N20/00

Abstract: a method is for generating a training dataset for training an artificial intelligence system in order to ascertain an operating state and/or to predict an event timepoint of a hand-held power tool. the method includes providing a plurality of measured values of an operating variable of a hand-held power tool, and identifying an event timepoint within the plurality of measured values. the method also includes arranging a plurality of labeled measured values in a time series based on timestamps of the measured values, and providing a training dataset including the time series of labeled measured values of the operating variable.

20240257538. SYSTEM AND METHOD FOR MONITORING A VEHICLE INTERIOR_simplified_abstract_(robert bosch gmbh)

Inventor(s): Hoang Trinh of Gerlingen (DE) for robert bosch gmbh

IPC Code(s): G06V20/59

CPC Code(s): G06V20/597

Abstract: a system for monitoring a vehicle interior. the system includes at least one interface for receiving image data captured with an image capturing device, and a first computing device for providing at least a first monitoring function of the system based on the image data, and a further computing device for providing at least one further monitoring function of the system based on the image data. the system is designed in such a way that the image data are provided via the interface to the first computing device and that at least one portion of the image data is provided by the first computing device to the further computing device. the at least one portion of the image data includes image data that are required for the further computing device to provide the further monitoring function.

20240257677. ILLUMINATION DEVICE AND METHOD FOR TURNING ON OR TURNING OFF A FIRST AND/OR A SECOND LASER DIODE OF AN ILLUMINATION DEVICE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Christian Adam Grafenburg of Stuttgart (DE) for robert bosch gmbh, Moritz Esslinger of Leonberg (DE) for robert bosch gmbh

IPC Code(s): G09G3/00, G02B27/01

CPC Code(s): G09G3/003

Abstract: a method for turning on or off a first and/or a second laser diode of an illumination device. a first laser diode of the illumination device for emitting a first light beam within a first wavelength range is turned on by a control unit of the illumination device. the first wavelength range changes depending on a temperature of the first laser diode. the first laser diode is turned off by the control unit depending on a comparison of a first wavelength value of the first light beam emitted by the first laser diode with a first wavelength threshold value. a second laser diode of the illumination device for emitting a second light beam within a second wavelength range is turned on or left on by the control unit at the second point in time depending on the comparison of the first wavelength value with the first wavelength threshold value.

20240258547. RADICAL SCAVENGERS FOR FUEL CELLS_simplified_abstract_(robert bosch gmbh)

Inventor(s): Soo KIM of Cambridge MA (US) for robert bosch gmbh, Ulrich BERNER of Stuttgart (DE) for robert bosch gmbh, Charles TUFFILE of Swansea MA (US) for robert bosch gmbh

IPC Code(s): H01M8/1051, H01M8/10, H01M8/1004

CPC Code(s): H01M8/1051

Abstract: a fuel cell proton exchange membrane (pem) includes a peroxide decomposition radical scavenger material, where the peroxide decomposition radical scavenger material is m/mo(1≤x≤3), and m is ta, w, dy, mo, la, nd, v, gd, er, or sm. the peroxide decomposition radical scavenger material may be mixed with at least one of ce/ceo(0.5≤x≤4) and mn/mno(0.5≤x≤4).

20240258637. Battery Pack Device, Battery Pack, and Method for Manufacturing a Battery Pack Device_simplified_abstract_(robert bosch gmbh)

Inventor(s): Florian Kneer of Duernau (DE) for robert bosch gmbh, Marcin Rejman of Waiblingen (DE) for robert bosch gmbh

IPC Code(s): H01M50/296, H01M50/238, H01M50/247

CPC Code(s): H01M50/296

Abstract: a battery pack device includes (i) at least one battery pack housing, and (ii) at least one interface for an electrical and mechanical connection to a consumer which is arranged on an interface side of the battery pack housing. the interface includes at least one contact support which is arranged adjacent to a wall of the battery pack device. the wall is designed to be curved.

20240258765. LASER DIODE DEVICE AND PRODUCTION METHOD_simplified_abstract_(robert bosch gmbh)

Inventor(s): Stefan Pinter of Reutlingen (DE) for robert bosch gmbh

IPC Code(s): H01S5/02257, H01S5/02208, H01S5/02255, H01S5/02345, H01S5/40

CPC Code(s): H01S5/02257

Abstract: a laser diode device including at least one laser diode. the laser diode is an edge emitter. the laser diode device includes a housing having a transparent optical window, the transparent optical window being embodied as a first side wall of the housing. the housing is designed to shield the laser diode from an external environment of the laser diode device, in particular hermetically. the transparent optical window is designed to transmit at least one laser beam generated by the laser diode into the external environment. the laser diode is at least indirectly fastened to a base of the housing. the side walls of the housing and a housing cover situated opposite the housing base are produced from a multiplicity of wafers, in particular at least three.

20240258857. STATOR OF AN ELECTRIC MACHINE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Kuehbacher of Stuttgart (DE) for robert bosch gmbh, Thomas Heid of Lauf (DE) for robert bosch gmbh

IPC Code(s): H02K3/24, H02K1/16, H02K3/34, H02K3/50

CPC Code(s): H02K3/24

Abstract: the invention relates to a stator () of an electric machine (), comprising a laminated core () on which stator teeth () and stator grooves () lying between the stator teeth () are formed and which comprises a plurality of laminations (), wherein a single conductor () or a conductor bundle () comprising a plurality of conductors () is provided in each stator groove () in order to form an electric stator winding (), wherein support points () which are mutually spaced in the axial direction are formed in the stator grooves () in order to support the conductor () or conductor bundle () lying in the respective stator groove (), and at least one groove gap () is formed between the walls () of the respective stator groove () and the conductor or conductor bundle () arranged in the stator groove (), said groove gap forming a groove gap channel () which extends in the axial direction and through which a coolant can flow, wherein the support points () are formed by support devices (), each of which comprises one or more support discs () of the laminated core (),

20240258858. STATOR OF AN ELECTRIC MACHINE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Kuehbacher of Stuttgart (DE) for robert bosch gmbh, Felix Bensing of Stuttgart (DE) for robert bosch gmbh, Patrick Fruehauf of Besigheim (DE) for robert bosch gmbh

IPC Code(s): H02K3/24, H02K3/50, H02K9/19

CPC Code(s): H02K3/24

Abstract: the invention relates to a stator of an electric machine, said stator having a stator axis and a laminated core on which stator teeth and stator grooves are formed and which comprises a plurality of sheet metal laminates. the stator teeth are connected together via a stator yoke, and a conductor bundle comprising a plurality of conductors is arranged in each stator groove in order to form an electric stator winding, wherein each of the stator grooves has a groove base facing the stator yoke and a groove slot facing away from the groove base, and a groove base channel which extends in the axial direction and through which a coolant can flow along at least some sections of a cooling path between a groove inlet and a groove outlet of the respective stator groove is formed between the groove base of the respective stator groove and the conductor bundle arranged in the stator groove.

20240258858. STATOR OF AN ELECTRIC MACHINE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Daniel Kuehbacher of Stuttgart (DE) for robert bosch gmbh, Felix Bensing of Stuttgart (DE) for robert bosch gmbh, Patrick Fruehauf of Besigheim (DE) for robert bosch gmbh

IPC Code(s): H02K3/24, H02K3/50, H02K9/19

CPC Code(s): H02K3/24

Abstract: the invention is characterized in that a groove slot channel () extending in the axial direction is formed in the groove slot () of the respective stator groove (), said groove slot channel being fluidically connected to the groove base channel () of the same stator groove () at at least one distributor point () via a distributor connection () running in the radial direction with respect to the stator axis (), and the cooling path () of the stator groove () is formed such that a cooling flow is forced from the groove slot channel () into the groove base channel () and/or vice versa via the at least one distributor connection ().

20240259031. METHOD FOR PROCESSING INPUT VARIABLES BY MEANS OF A PROCESSING DEVICE COMPRISING AT LEAST TWO FIELD-EFFECT TRANSISTORS, DEVICE FOR EXECUTING THE METHOD, COMPUTING DEVICE, AND USE_simplified_abstract_(robert bosch gmbh)

Inventor(s): Taha Soliman of Renningen (DE) for robert bosch gmbh, Tobias Kirchner of Ludwigsburg (DE) for robert bosch gmbh

IPC Code(s): H03M1/44, H03M1/36, H03M1/46

CPC Code(s): H03M1/447

Abstract: a method for processing input variables using a processing device including at least two field-effect transistors. drain-to-source paths of the at least two field-effect transistors are each connected to a first circuit node. the method includes: applying to a gate electrode of the first field-effect transistor a first drive signal which characterizes a first input variable associated with the first field-effect transistor; applying to a gate electrode of the second field-effect transistor a second drive signal which characterizes a first input variable associated with the second field-effect transistor, wherein at least one of the first drive signal and/or the second drive signal has a non-constant amplitude.

Robert Bosch GmbH patent applications on August 1st, 2024