Abstract: The invention relates to a device (100) and to a method (400) for heating a traction battery (50) in a vehicle (300). The device (100) comprises an electric consumer (10), which consumes a load current during operation and generates waste heat, the electric consumer (10) being operated to heat the traction battery (50). The device (100) comprises a drive connection (80) for connecting an electric drive (90). The electric consumer (10) comprises a braking resistor for consuming regenerative electric power from the electric drive (90).

Abstract: A method is proposed for actuating an electromagnetic load (3) which can be switched between at least two switching states, particularly a magnetic valve, wherein switching between a first and a second of the switching states takes place as a result of a current flowing through the load (3) by means of applying an electrical voltage to said load (3). Provision is thereby made for the voltage to be clocked upon application thereof to said load (3) if due to the applied voltage the switching process would occur without clocking outside of a current ramp-up. The invention furthermore relates to an electrical circuit for actuating an electromagnetic load (3).

Abstract: The invention relates to an electric circuit configuration for switching an electrical load (3), particularly a solenoid valve, by means of at least one switching means (5) associated with the consumer (3), particularly a transistor. The circuit configuration comprises at least one analysis circuit comprising at least one measuring resistor (17) connected in series with the switching means (5), at least one first analysis means (23) for determining a parameter corresponding to the short-circuit current, and at least one second analysis means (25) for determining a parameter corresponding to the consumer current. The circuit configuration is characterized in that the first analysis means (23) is connected in parallel with the measurement resistor (17).

Abstract: The invention relates to an arrangement (1) for operating an exhaust gas post-treatment device, particularly of a motor vehicle, wherein the arrangement (1) comprises a plurality of consumers (3-12) and a controller (2), wherein the controller (2) comprises at least one switching device (13) for switching the consumers (3-12) on and off. According to the invention, the consumers (3-12) are grouped according to function, and connected to one switch (17-21) each of the switching device (13). The invention further relates to a method for operating an exhaust post-treatment device.

Abstract: A method for identifying a short circuit to the positive terminal of a battery in a circuit of a motor vehicle. An electronic circuit breaker HS (123) is actuated by a control device (120) and has at least one electrical switch which switches on and off loads (110, 111, 112), the switching state of said switches being reported to the control device (120) and determines that operation is fault-free when the connected loads (110, 111, 112) are supplied with voltage when the electronic circuit breaker HS (123) is switched on and a “short circuit” or “load drop” message is produced at the circuit breaker when the electronic circuit breaker HS (123) is switched off, switching off the supply voltage by the electronic circuit breaker HS (123) is detected at the end of a driving cycle of the motor vehicle. A fault is determined when a “short circuit” or “load drop” message is not produced at the electrical switch.

Abstract: The invention relates to an arrangement (1) for operating an exhaust gas aftertreatment device, in particular of a motor vehicle, having a plurality of active sensors (3-8) and a control device (2) that comprises at least one voltage supply unit (9) to which the sensors (3-8) are operatively connected. According to the invention, the voltage supply unit (9) comprises at least two supply benches (13-15) that can be switched independently from each other. The sensors (3-8) are grouped according to the function thereof and are then associated with one of the supply benches (13-15).

Abstract: A method for identifying a short circuit to the positive terminal of a battery in a circuit of a motor vehicle. An electronic circuit breaker HS (123) is actuated by a control device (120) and has at least one electrical switch which switches on and off loads (110, 111, 112), the switching state of said switches being reported to the control device (120) and determines that operation is fault-free when the connected loads (110, 111, 112) are supplied with voltage when the electronic circuit breaker HS (123) is switched on and a “short circuit” or “load drop” message is produced at the circuit breaker when the electronic circuit breaker HS (123) is switched off, switching off the supply voltage by the electronic circuit breaker HS (123) is detected at the end of a driving cycle of the motor vehicle. A fault is determined when a “short circuit” or “load drop” message is not produced at the electrical switch.

Abstract: The invention relates to an electric circuit configuration for switching an electrical load (3), particularly a solenoid valve, by means of at least one switching means (5) associated with the consumer (3), particularly a transistor. The circuit configuration comprises at least one analysis circuit comprising at least one measuring resistor (17) connected in series with the switching means (5), at least one first analysis means (23) for determining a parameter corresponding to the short-circuit current, and at least one second analysis means (25) for determining a parameter corresponding to the consumer current. The circuit configuration is characterized in that the first analysis means (23) is connected in parallel with the measurement resistor (17).

Abstract: The invention relates to an arrangement (1) for operating an exhaust gas aftertreatment device, in particular of a motor vehicle, having a plurality of active sensors (3-8) and a control device (2) that comprises at least one voltage supply unit (9) to which the sensors (3-8) are operatively connected. According to the invention, the voltage supply unit (9) comprises at least two supply benches (13-15) that can be switched independently from each other. The sensors (3-8) are grouped according to the function thereof and are then associated with one of the supply benches (13-15).

Abstract: The invention relates to an arrangement (1) for operating an exhaust gas post-treatment device, particularly of a motor vehicle, wherein the arrangement (1) comprises a plurality of consumers (3-12) and a controller (2), wherein the controller (2) comprises at least one switching device (13) for switching the consumers (3-12) on and off. According to the invention, the consumers (3-12) are grouped according to function, and connected to one switch (17-21) each of the switching device (13). The invention further relates to a method for operating an exhaust post-treatment device.

Abstract: The invention relates to an exhaust gas aftertreatment device (1) of a motor vehicle, said device having a heater (2), which includes a plurality of heating elements (5, 6, 7), and a control unit (9) associated with the heater (2), wherein a common first switch (10) and in each case a second switch (32, 33, 34) are associated with the heating elements (5, 6, 7) and said heating elements (5, 6, 7) are jointly switchable by means of the first switch (10) and individually switchable by means of the second switches (32, 33, 34). The invention thereby provides that said first switch (10) is disposed separately from the control unit (9) and can be actuated by the same.

Abstract: A method is proposed for actuating an electromagnetic load (3) which can be switched between at least two switching states, particularly a magnetic valve, wherein switching between a first and a second of the switching states takes place as a result of a current flowing through the load (3) by means of applying an electrical voltage to said load (3). Provision is thereby made for the voltage to be clocked upon application thereof to said load (3) if due to the applied voltage the switching process would occur without clocking outside of a current ramp-up. The invention furthermore relates to an electrical circuit for actuating an electromagnetic load (3).