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    • 2. 发明公开
    • FUNCTION ENHANCEMENT CONTROL CABINET BUSBAR MODULE
    • EP4180824A1
    • 2023-05-17
    • EP21208078.2
    • 2021-11-12
    • Future Systems Besitz GmbH
    • SPIEL, PeterFÖRST, Bernhard
    • G01R19/25H02B1/20G05B19/042H02B1/21
    • A Function Enhancement Control Cabinet Module, FECCM, (1) for a control cabinet (13) comprising at least one energy interface (2) for connection of said Function Enhancement Control Cabinet Module, FECCM, (1) to a power distribution system (14) of said control cabinet (13); at least one application device interface (3) for connection and power supply of at least one application device (15) to said Function Enhancement Control Cabinet Module, FECCM, (1); a control interface (4) for connection of said Function Enhancement Control Cabinet Module, FECCM, (1) to an external controller (17); a user visualization interface (5) adapted to provide output information to a user and/or to receive user input commands from a user of said control cabinet (13); at least one measurement unit, MU, (6) provided between the energy interface (2) and the application device interface (3) to provide measurement data, MDATA, to a data processing unit, DPU, (7) of said Function Enhancement Control Cabinet Module, FECCM, (1) being galvanically isolated from said measurement unit, MU, (6) and adapted to exchange control information and data with the external controller (17) connected to the control interface (4) of the Function Enhancement Control Cabinet Module, FECCM, (1).
    • 5. 发明公开
    • A FUNCTION ENHANCEMENT CONTROL CABINET MODULE FOR A CONTROL CABINET
    • EP4180885A1
    • 2023-05-17
    • EP21208070.9
    • 2021-11-12
    • Future Systems Besitz GmbH
    • SPIEL, PeterFÖRST, Bernhard
    • G05B19/042
    • A Function Enhancement Control Cabinet Module, FECCM, (1) for a control cabinet (13) comprising at least one energy interface (2) for connection of said Function Enhancement Control Cabinet Module, FECCM, (1) to a power distribution system (14) of said control cabinet (13); at least one application device interface (3) for connection and power supply of at least one application device (15) to said Function Enhancement Control Cabinet Module, FECCM, (1); a control interface (4) for connection of said Function Enhancement Control Cabinet Module, FECCM, (1) to an external controller (17); a user visualization interface (5) adapted to provide output information to a user and/or to receive user input commands from a user of said control cabinet (13); at least one measurement unit, MU, (6) provided between the energy interface (2) and the application device interface (3) to provide measurement data, MDATA, to a data processing unit, DPU, (7) of said Function Enhancement Control Cabinet Module, FECCM, (1) being galvanically isolated from said measurement unit, MU, (6) and adapted to exchange control information and data with the external controller (17) connected to the control interface (4) of the Function Enhancement Control Cabinet Module, FECCM, (1).
    • 8. 发明公开
    • SHORT CIRCUIT DETECTION APPARATUS
    • EP4131692A1
    • 2023-02-08
    • EP21189939.8
    • 2021-08-05
    • Future Systems Besitz GmbH
    • SPIEL, PeterFÖRST, Bernhard
    • H02H3/08H02H3/44
    • A short circuit detection apparatus (1) for detection of an electrical short circuit current flowing in at least one monitored current path from a voltage source (2)to an electrical load (3), wherein the short circuit detection apparatus (1)is connected to the monitored current path and comprises an evaluation circuit (8)including at least one programmable or preprogrammed arithmetic unit (8A) adapted to perform at least one arithmetic combination operation ,ACOP, on a first voltage, V R , provided by a resistive element (6) of the monitored current path and being proportional to the electrical current, I, flowing via the monitored current path and on a second voltage, V L , provided by an inductive element (7) of the monitored current path and depending on a derivative of the electrical current, dI/dt, flowing via the monitored current path to provide a combined sensor voltage and including a comparator (8D) adapted to compare the combined sensor voltage provided by the programmable or preprogrammed arithmetic unit (8A) with a preset or an adjustable threshold voltage to generate a short circuit detection signal (SCDS) if the combined sensor voltage exceeds the threshold voltage.
    • 9. 发明公开
    • METHOD AND APPARATUS FOR PROTECTION OF AN ELECTRICAL LOAD AGAINST OVERVOLTAGE
    • EP3944438A1
    • 2022-01-26
    • EP20187550.7
    • 2020-07-23
    • Future Systems Besitz GmbH
    • STEINBERGER, PhilippSPIEL, PeterFÖRST, Bernhard
    • H02H1/00H02H3/22H02H3/08
    • A protection apparatus (1) for protection of an electrical load (9), said protection apparatus (1) comprising: at least one input terminal (2) adapted to receive a power supply voltage; at least one semiconductor power switch (5) connected in series to the associated input terminal (2) in a power supply path (10) through which the electrical load (9) connected to an output terminal (3) of said power supply path (10) receives an electrical load current, I L ; said protection apparatus (1) further comprising: a control unit (8) having a microprocessor (8A) adapted to control a driver circuit (6) of said protection apparatus (1) to switch the at least one semiconductor power switch (5) provided in the power supply path (10) on or off in response to a received switch command (CMD), said protection apparatus (1) further comprising: at least one overvoltage detection circuit, ODC, (12) connected to an associated power supply path (10) of said protection apparatus (1) and adapted to detect an overvoltage state at the respective power supply path (10) of said protection apparatus (1) and to control the driver circuit (6) directly through control lines (12, 20) connected to a driver input (IN) at a low voltage side (6A) of the driver circuit (6) to switch off the at least one semiconductor power switch (5) provided within the associated power supply path (10) if an overvoltage state has been detected by the overvoltage detection circuit, ODC, (12) to provide protection of the connected electrical load (9) against overvoltage.