Abstract: The invention relates to an arrangement (10) for balancing the battery cells (11) of a battery string, in particular the battery cells (11) of a battery module which has a plurality of serially connected battery cells (11). The arrangement (10) has an inductor (9) for storing electric energy and switching devices (17) on the supply side for connecting the poles of a first battery cell (11) to the inductor (9) via a first connection point (13) and a second connection point (14). The arrangement can be actuated by a controller such that electric energy can be transmitted from at least one first battery cell (11) to the inductor (9) and from the inductor (9) to at least one second battery cell (11).

Abstract: The invention relates to an arrangement (10) for balancing the battery cells (11) of a battery string, in particular the battery cells (11) of a battery module which has a plurality of serially connected battery cells (11). The arrangement (10) has an inductor (9) for storing electric energy and switching devices (17) on the supply side for connecting the poles of a first battery cell (11) to the inductor (9) via a first connection point (13) and a second connection point (14). The arrangement can be actuated by a controller such that electric energy can be transmitted from at least one first battery cell (11) to the inductor (9) and from the inductor (9) to at least one second battery cell (11).

Abstract: A battery comprises a number n of battery module strings, wherein n is a natural number greater than or equal to two. The battery module strings have several battery modules, and one battery module has a coupling unit. The coupling unit is configured as a voltage transformer and couples the battery modules to each other. A method of controlling the battery includes supplying a load connected to the battery with a predefined and substantially constant total power. The total power corresponds to a sum of n individual powers of the n battery module strings. The method further includes setting n?1 string voltages, which are each present at the n?1 battery module strings, according to the total power, the load, and by defining a string voltage present at an nth battery module string with amplitude and phase position. At least two of the n individual powers are asymmetrical to each other.

Abstract: The disclosure provides a drive circuit for n contactors, which circuit comprises a first input and a second input as well as n first connections and n second connections, wherein a first connection and a second connection in each case can be respectively connected to one of the two connections of a drive coil of one of the n contactors in each case. According to the disclosure, the drive circuit also comprises an adjustable holding voltage source, the first pole of which is connected to the second input and the second pole of which is connected to the first of the first connections. A method for driving n contactors is also disclosed.

Abstract: The present disclosure relates to a method and an arrangement for monitoring at least one battery, to a battery having such an arrangement, and to a motor vehicle having a corresponding battery that is used for safely monitoring the battery condition with a reduced amount of hardware. The at least one battery is monitored by analyzing measured variables of the at least one battery using at least one data processing device. The signals exchanged between the at least one battery and the at least one data processing device via a communication connection are monitored at least once.

Abstract: A battery includes a plurality of battery cells connected in series between a positive terminal and a negative terminal and a resistor connected in series with the battery cells. The battery also includes a plurality of cell voltage detection units which each include a plurality of voltage measurement inputs connected to a respective group of the battery cells. The battery is configured to determine cell voltages of the battery cells connected to the respective cell voltage detection unit. The cell voltage detection units are connected to each other by a communication bus and are configured to transmit, via the communication bus, the determined cell voltages to a microcontroller which is galvanically decoupled from the cell voltage detection units by an electrical isolation device. The resistor includes a first connection connected to a selected voltage measurement input of one of the cell voltage detection units.

Abstract: The disclosure provides a drive circuit for n contactors, which circuit comprises a first input and a second input as well as n first connections and n second connections, wherein a first connection and a second connection in each case can be respectively connected to one of the two connections of a drive coil of one of the n contactors in each case. According to the disclosure, the drive circuit also comprises an adjustable holding voltage source, the first pole of which is connected to the second input and the second pole of which is connected to the first of the first connections. A method for driving n contactors is also disclosed.

Abstract: A current sensor includes a core arranged around a conductor, a sensing element arranged on the core and configured to generate an output variable dependent on a magnetic field in the core, and a measuring unit configured to detect the output variable and to derive a measured value of the current. The current sensor further includes a test coil arranged around the core and a test current generator connected to the test coil. The test current generator is configured to generate a test current signal of a specified amplitude and to output the test current signal to the test coil. The current sensor further includes a testing unit connected to both the measuring unit and the test current generator and configured to output information regarding the current sensor. The information is output as a test signal dependent upon comparing a first and a second measured value.

Abstract: A battery comprises a number n of battery module strings, wherein n is a natural number greater than or equal to two. The battery module strings have several battery modules, and one battery module has a coupling unit. The coupling unit is configured as a voltage transformer and couples the battery modules to each other. A method of controlling the battery includes supplying a load connected to the battery with a predefined and substantially constant total power. The total power corresponds to a sum of n individual powers of the n battery module strings. The method further includes setting n?1 string voltages, which are each present at the n?1 battery module strings, according to the total power, the load, and by defining a string voltage present at an nth battery module string with amplitude and phase position. At least two of the n individual powers are asymmetrical to each other.

Abstract: The present disclosure relates to a method and an arrangement for monitoring at least one battery, to a battery having such an arrangement, and to a motor vehicle having a corresponding battery that is used for safely monitoring the battery condition with a reduced amount of hardware. The at least one battery is monitored by analyzing measured variables of the at least one battery using at least one data processing device. The signals exchanged between the at least one battery and the at least one data processing device via a communication connection are monitored at least once.

Abstract: A battery includes a plurality of battery cells connected in series between a positive terminal and a negative terminal and a resistor connected in series with the battery cells. The battery also includes a plurality of cell voltage detection units which each include a plurality of voltage measurement inputs connected to a respective group of the battery cells. The battery is configured to determine cell voltages of the battery cells connected to the respective cell voltage detection unit. The cell voltage detection units are connected to each other by a communication bus and are configured to transmit, via the communication bus, the determined cell voltages to a microcontroller which is galvanically decoupled from the cell voltage detection units by an electrical isolation device. The resistor includes a first connection connected to a selected voltage measurement input of one of the cell voltage detection units.