Abstract: This disclosure provides novel aqueous povidone-iodine (PVP-I) pharmaceutical preparations, which demonstrate strong antimicrobial activity and also strong virucidal activities. The disclosure also provides methods for reducing virus transmission or decreasing risk, incidence or severity of diseases (e.g., COVID-19) or conditions caused by virus infections by topically applying the pharmaceutical preparation of the disclosure to an animal (e.g., a human subject). The disclosure further provides methods of reducing an infection risk posed by microorganisms or viruses in a clinical setting.

Abstract: A vehicle control system for controlling a vehicle and to a method of operating such a vehicle control system. The vehicle control system may include an inceptor adapted for controlling a servo-assisted control unit via a mechanical linkage, first and second force generating devices that are mechanically connected to the inceptor in parallel and provided for generating respective first and second forces that act in operation on the inceptor, a hands-on/off detection management unit, and a decoupling device that mechanically decouples the second force generating device from the inceptor based on a control signal from the hands-on/off detection management unit.

Abstract: A vehicle control system for controlling a vehicle and to a method of operating such a vehicle control system. The vehicle control system may include an inceptor adapted for controlling a servo-assisted control unit via a mechanical linkage first and second force generating devices that are mechanically connected to the inceptor in parallel and provided for generating respective first and second forces that act in operation on the inceptor, a hands-on/off detection management unit, and a decoupling device that mechanically decouples the second force generating device from the inceptor based on a control signal from the hands-on/off detection management unit.

Abstract: A method of controlling an artificial force feel generating device for generation of an artificial feeling of force on an inceptor that is adapted for controlling a servo-assisted control unit of a vehicle control system, wherein the artificial force feel generating device comprises at least one force generating device that is mechanically connected to the inceptor for generating a tactile cue force acting in operation on the inceptor, and wherein a safety device is provided for limiting authority of the at least one force generating device, the method comprising at least the steps of: monitoring usage of the safety device during operation of the artificial force feel generating device, determining a current accumulated fatigue of the safety device on the basis of the monitored usage, and re-configuring the at least one force generating device on the basis of the current accumulated fatigue.

Abstract: An artificial force feel generating device for generation of an artificial feeling of force on an inceptor of a vehicle control system, the inceptor being adapted for controlling a servo-assisted control unit of the vehicle control system via a mechanical linkage, wherein at least one first force generating device and at least one second force generating device are mechanically connected to the inceptor, the first force generating device being provided for generating a nominal force acting in operation on the inceptor and the second force generating device being provided for generating a tactile cue force acting in operation on the inceptor, the first and second force generating devices being arranged in parallel. The invention relates further to an aircraft comprising such an artificial force feel generating device.

Abstract: A method of controlling an artificial force feel generating device for generation of an artificial feeling of force on an inceptor that is adapted for controlling a servo-assisted control unit of a vehicle control system, wherein the artificial force feel generating device comprises at least one force generating device that is mechanically connected to the inceptor for generating a tactile cue force acting in operation on the inceptor, and wherein a safety device is provided for limiting authority of the at least one force generating device, the method comprising at least the steps of: monitoring usage of the safety device during operation of the artificial force feel generating device, determining a current accumulated fatigue of the safety device on the basis of the monitored usage, and re-configuring the at least one force generating device on the basis of the current accumulated fatigue.

Abstract: Electrical harnesses and methods of manufacturing electrical harnesses are disclosed. The electrical harnesses may comprise an electrically conductive wire, an electrical connector in electrical communication with the conductive wire, a metal clad fiber (“MCF”) braided shield surrounding a portion of the electrically conductive wire, and an overbraid surrounding a portion of the MCF braided shield, wherein the electrical connector comprises an integrated backshell. Methods of making electrical harnesses may comprise connecting an electrical connector with a conductive wire, disposing a metal clad fiber (“MCF”) braided shield to at least partially surround the conductive wire; and disposing an overbraid to at least partially surround the MCF braided shield, wherein the electrical connector comprises an integrated backshell.

Abstract: An artificial force feel generating device for generation of an artificial feeling of force on an inceptor of a vehicle control system, the inceptor being adapted for controlling a servo-assisted control unit of the vehicle control system via a mechanical linkage, wherein at least one first force generating device and at least one second force generating device are mechanically connected to the inceptor, the first force generating device being provided for generating a nominal force acting in operation on the inceptor and the second force generating device being provided for generating a tactile cue force acting in operation on the inceptor, the first and second force generating devices being arranged in parallel. The invention relates further to an aircraft comprising such an artificial force feel generating device.

Abstract: Electrical harnesses and methods of manufacturing electrical harnesses are disclosed. The electrical harnesses may comprise an electrically conductive wire, an electrical connector in electrical communication with the conductive wire, a metal clad fiber (“MCF”) braided shield surrounding a portion of the electrically conductive wire, and an overbraid surrounding a portion of the MCF braided shield, wherein the electrical connector comprises an integrated backshell. Methods of making electrical harnesses may comprise connecting an electrical connector with a conductive wire, disposing a metal clad fiber (“MCF”) braided shield to at least partially surround the conductive wire; and disposing an overbraid to at least partially surround the MCF braided shield, wherein the electrical connector comprises an integrated backshell.

Abstract: Methods and systems for, in one embodiment, accelerating a stage through a clearance height in a first direction and decelerating the stage in the first direction while accelerating in a second direction are shown. The stage is moved in a third direction and a determination is made whether the stage movement in the second direction is below a threshold value before continuing to move the stage further in the third direction. The first direction is perpendicular to the second direction and is parallel and opposite to the third direction.

Abstract: Methods and systems for, in one embodiment, accelerating a stage through a clearance height in a first direction and decelerating the stage in the first direction while accelerating in a second direction are shown. The stage is moved in a third direction and a determination is made whether the stage movement in the second direction is below a threshold value before continuing to move the stage further in the third direction. The first direction is perpendicular to the second direction and is parallel and opposite to the third direction.

Abstract: Methods and systems for, in one embodiment, accelerating a stage through a clearance height in a first direction and decelerating the stage in the first direction while accelerating in a second direction are shown. The stage is moved in a third direction and a determination is made whether the stage movement in the second direction is below a threshold value before continuing to move the stage further in the third direction. The first direction is perpendicular to the second direction and is parallel and opposite to the third direction.

Abstract: Methods and systems for, in one embodiment, accelerating a stage through a clearance height in a first direction and decelerating the stage in the first direction while accelerating in a second direction are shown. The stage is moved in a third direction and a determination is made whether the stage movement in the second direction is below a threshold value before continuing to move the stage further in the third direction. The first direction is perpendicular to the second direction and is parallel and opposite to the third direction.

Abstract: A microfluidic device preferably made of a thermoplastic polymer that includes a channel or a multiplicity of channels whose surfaces are modified by photografting. The device further includes a porous polymer monolith prepared via UV initiated polymerization within the channel, and functionalization of the pore surface of the monolith using photografting. Processes for making such surface modifications of thermoplastic polymers and porous polymer monoliths are set forth.

Abstract: The micro electronic device comprises a substrate with a surface and a plurality of storage elements in serial connection formed at the surface of the substrate, a plurality of transistors, each transistor being connected parallel to one of the plurality of storage elements. Each storage element comprises a storing material between a first electrode and a second electrode. A storing material provides at least two different storing states with different electrical properties. The first electrode comprises a first material and the second electrode comprises a second material different from the first material. The plurality of storage elements is oriented parallel to the surface of the substrate.

Abstract: A memory device including an array of resistive memory cells, which are arranged in columns and rows, and wherein each resistive memory cell each is connected to a word line, to a bit line, and to a reference electrode. The word lines are assigned to the rows and the bit lines are assigned to the columns. The resistive state of the resistive memory cells corresponds to a logical state thereof, and the memory device further comprises an evaluation device, which is coupled to the bit lines, for evaluating the resistive state of at least one of the resistive memory cells during a reading operation. The respective resistive memory cell is selected by addressing the word line to which the resistive memory cell is connected.

Abstract: An integrated memory arrangement based on resistive memory cells that can be changed over between a first state of high electrical resistance and a second state of low electrical resistance, each memory cell having an electrical additional capacitance that increases its capacitance, and to a production method.

Abstract: The invention relates to a memory circuit (Conductive Bridging RAM), and in particular to a CBRAM having CBRAM resistance elements as memory cells. The invention also relates to a method for evaluating a memory datum of a CBRAM resistance memory cell.

Abstract: The micro electronic device comprises a substrate with a surface and a plurality of storage elements in serial connection formed at the surface of the substrate, a plurality of transistors, each transistor being connected parallel to one of the plurality of storage elements. Each storage element comprises a storing material between a first electrode and a second electrode. A storing material provides at least two different storing states with different electrical properties. The first electrode comprises a first material and the second electrode comprises a second material different from the first material. The plurality of storage elements is oriented parallel to the surface of the substrate.

Abstract: A memory device including an array of resistive memory cells, which are arranged in columns and rows, and wherein each resistive memory cell each is connected to a word line, to a bit line, and to a reference electrode. The word lines are assigned to the rows and the bit lines are assigned to the columns. The resistive state of the resistive memory cells corresponds to a logical state thereof, and the memory device further comprises an evaluation device, which is coupled to the bit lines, for evaluating the resistive state of at least one of the resistive memory cells during a reading operation. The respective resistive memory cell is selected by addressing the word line to which the resistive memory cell is connected.