Abstract: An assembly for a power module includes an electrically isolating base body and first and second electrically conductive structures embedded in the base body. The first and electrically conductive structures are configured to carry different voltages during normal operation of the power module. The first and the second electrically conductive structure each comprise a first region that is not covered by the base body. The first region of the first conductive structure is arranged in a hole of the base body and is retracted with respect to an opening of the hole. The hole is filled with an electrically isolating material that covers the first region of the first conductive structure.

Abstract: A predictive energy management technique for a fuel cell electric vehicle (FCEV) includes determining a state of charge (SOC) profile for a battery system of an electrified powertrain that also includes an electric motor, the SOC profile defining a plurality of SOC allocations for a plurality of trip segments, applying a set of constraints of the FCEV to the SOC profile to obtain a target SOC profile, wherein the set of constraints include at least one or more constraints for operation of a fuel cell system of the electrified powertrain, determining a dynamic fuel cell power to achieve the target SOC profile at each of the plurality of trip segments, filtering the dynamic fuel cell power to obtain a predictive fuel cell power request for the fuel cell system, and controlling the fuel cell system using the predictive fuel cell power request.

Abstract: A semiconductor power module comprises a metal substrate structure with a metal top layer, a metal bottom layer, and a dielectric layer in between. A housing with a top wall and side walls is coupled to the metal substrate structure. With respect to a stacking direction, there is a predetermined distance between a lower surface of the top wall and an upper surface of the metal top layer adjacent to the side walls. At least one terminal is arranged inside the housing, and is coupled to the lower surface of the top wall and to the upper surface of the metal top layer. With respect to the stacking direction, a length of the terminal is configured in coordination with the distance, such that due to the terminal, the metal substrate structure is bent in a predetermined manner and comprises a convex shape in interaction with the housing and the terminal.

Abstract: A height-adjustable operating platform of a compact paver comprising a machine frame, a drive motor, travel units, a receiving container at the front in relation to the paving direction for receiving paving material, a longitudinal conveying device with which the paving material can be conveyed from the receiving container in a rearward direction in relation to the paving direction, a transverse distribution device that is height-adjustable in relation to the machine frame and with which the paving material can be distributed on the ground surface transversally to the paving direction, a paving screed that is height-adjustable in relation to the machine frame for compacting and smoothing the paving material distributed on the ground surface behind the transverse distribution device in the paving direction, an operating platform mounted on the machine frame and arranged behind the receiving container in the paving direction and a method for operating a compact paver.

Abstract: A compact paver comprising a machine frame, drive motor, travel units, receiving container at the front in relation to the paving direction for receiving paving material, longitudinal conveying device with which the paving material can be conveyed from the receiving container in a rearward direction in relation to the paving direction, transverse distribution device with which the paving material can be distributed on the ground surface transversally to the paving direction, a height-adjustable paving screed for compacting and smoothing the paving material distributed on the ground surface behind the transverse distribution device in the paving direction, an operating platform mounted on the machine frame and arranged behind the receiving container in the paving direction, and an operating platform. And a method for coordinating the operating position of the operating console of the operating platform of the compact paver with a rear operating step and a higher front operating step of the operating platform.

Abstract: The invention relates to a compact paver comprising a machine frame, a drive motor, travel units, a receiving container at the front in relation to the paving direction for receiving paving material, a longitudinal conveying device with which the paving material can be conveyed from the receiving container in a rearward direction in relation to the paving direction, a transverse distribution device with which the paving material can be distributed on the ground surface transversally to the paving direction, a paving screed that is height-adjustable in relation to the machine frame for compacting and smoothing the paving material distributed on the ground surface behind the transverse distribution device in the paving direction, and an operating platform mounted on the machine frame and arranged behind the receiving container in the paving direction.

Abstract: The invention relates to a height-adjustable operating platform of a compact paver comprising a machine frame, a drive motor, travel units, a receiving container at the front in relation to the paving direction for receiving paving material, a longitudinal conveying device with which the paving material can be conveyed from the receiving container in a rearward direction in relation to the paving direction, a transverse distribution device that is height-adjustable in relation to the machine frame and with which the paving material can be distributed on the ground surface transversally to the paving direction, a paving screed that is height-adjustable in relation to the machine frame for compacting and smoothing the paving material distributed on the ground surface behind the transverse distribution device in the paving direction, an operating platform mounted on the machine frame and arranged behind the receiving container in the paving direction and a method for operating a compact paver.

Abstract: A method for retrofitting a power plant includes the steps of: removing the original active part, removing the original non-active part, providing a new active part that is larger than the original active part, and at least partly extends over a zone that was before occupied by the original active part, and at least partly extends over a zone that was before occupied by the original non-active part, and is housed within the foundation.

Abstract: A direct drive for a printing press with lateral register adjustment includes a rotor and a stator, and a connection for mechanically connecting the drive with a stationary support bearing, wherein the rotor is connectable with shaft of a printing press cylinder with the connection being a torsionally stiff spacer installed directly or indirectly on the outer jacket of drive, which is designed to be elastic in the direction of the motor axis to compensate axial motions of the attachable printing press cylinder shaft.

Abstract: A direct drive for a printing press with lateral register adjustment includes a rotor and a stator, and a connection for mechanically connecting the drive with a stationary support bearing, wherein the rotor is connectable with shaft of a printing press cylinder with the connection being a torsionally stiff spacer installed directly or indirectly on the outer jacket of drive, which is designed to be elastic in the direction of the motor axis to compensate axial motions of the attachable printing press cylinder shaft.

Abstract: An installation for temporary storage and ready for dispatch delivery of objects includes a closed-in-itself rail system with independently-movable holding elements (30), at least one packing and take-over station (10), at least one addressing and delivery station (11) and at least one computing unit (12). Between the packing and take-over station (10) and the addressing and delivery station (11), the rail system is designed as a storage area (2) having controllable switch points or switch point systems (5) on the input and on the outlet side (5) and with functionally parallel storage tracks (2.1, 2.2, . . . ) between the switch points or switch point systems (5). Prior to being stored, the objects (32) supplied to the installation are individualized, individually packed and taken over by one holding element (30) each. Packed objects (33) and holding elements (30) are transported to the storage area (2) together, are stored along the storage tracks (2.1, 2.2, . . .

Abstract: The installation for temporary storage and ready for dispatch delivery of objects comprises a closed-in-itself rail system with holding elements (30) movable on it independently of one another, at least one packing and take-over station (10), at least one addressing and delivery station (11) and at least one computing unit (12). Between the packing and take-over station (10) and the addressing and delivery station (11), the rail system is designed as a storage area (2), for example, with controllable switch points or switch point systems (5) on the input and on the outlet side (5) and with functionally parallel storage tracks (2.1, 2.2, . . . ) between the switch points or switch point systems (5). Prior to being stored, the objects (32) supplied to the installation are individualized, individually packed and taken over by one holding element (30) each. Packed objects (33) and holding elements (30) are transported to the storage area (2) together, are stored along the storage tracks (2.1, 2.2, . . .