DE102005058822A1 - Electrical system structure for e.g. hybrid vehicle, has storage and supply devices commutated with switching device, which partially uses separation contactor of energy storage device than switching unit for commutation - Google Patents

Abstract

The device has an energy storage device (4.1) e.g. battery or condenser, and an energy supply device (4.2) e.g. generator or fuel cell arrangement, producing supply voltages. The energy storage and supply devices are commutated with a switching device (8.3) on load current paths of an electrical load (2). The switching device for commutation of the current paths partially uses a separation contactor of the energy storage device than a switching unit e.g. mechanical or electronic switch, for the commutation. The switching device has a fuse and a conductor path restriction in the current paths. An independent claim is also included for a method for redundant power supply to a consumer load.

Description

The The invention relates to an apparatus and a method for redundant Energy supply of one or more consumers, for example of safety-relevant consumers using a redundant Architecture to be supplied with electrical energy.

To such protection of security-relevant consumers it is necessary, in addition to an existing supply branch another branch of supply build.

For example, is from the DE 101 50 379 A1 an energy supply system for motor vehicle electrical systems with multiple consumers known, which are powered by at least one energy source with energy. To improve the reliability of safety-relevant consumers, it is proposed to connect the consumers via a first supply line to a first energy source and via a second supply line to a second energy source. In this case, one energy source with the first supply line is a high-voltage network with a generator, and the other energy source with the second supply line is a battery.

adversely it is that in a hybrid vehicle, the high-voltage network, i. the supply network of traction components, a very branched Network with many consumers is. For a single error, eg. B. a short circuit, therefore, the high-voltage network can come to a complete halt and thus lead to shutdown of all consumers. In addition, it may be short-term Give interruptions in the supply network, if for example the Battery shuts off due to errors and the generator for power supply has to be started first.

Of the Invention is therefore based on the object, a device and to specify a method for the redundant power supply of several consumers, with a high availability the consumer is given and that in certain error cases without Interruption is running.

The The object is achieved by the characteristics of the independent Claims.

advantageous Further developments are the subject of the dependent claims.

The Invention is based on the consideration, that for high availability in particular safety-related consumers in a vehicle electrical system, the electrical Energy supply continued even without interruption, even with given error cases should be. For this purpose, a device for redundant power supply of several Consumers provided by a wiring system with at least two separate power supply facilities are supplied. The Both energy supply facilities feed here into a common Onboard power supply from a Plus bus and a mass bus one. The one of the two energy supply facilities that as Energy storage is formed here is about at least two contactors with connectable to the electrical system, with a disconnector at the same time also a switching means a switching device is. The second regenerative power supply device is permanently connected to the electrical system. With the switching device in the event of a fault, the current path for the consumers is intact Power supply device switched.

in the Case of a faulty regenerative power supply device this is commutated by the switching device in a freewheeling path and the energy storage device is via the switching device commutated into the consumer's current path.

in the If a faulty energy storage device this is with the marksmen and the switching device abkommutiert from the consumer current path, while the regenerative power supply device remains in the load current path.

According to the invention is a the separating contactor the energy storage device is included in the switching device, in the event of a fault, the consumer current path in each case to the intact To be able to switch power supply device.

Becomes the contactor in the Plus bus with so involved in the switching device is by the switching device, the plus bus of the electrical system commutated.

Becomes the contactor the mass manifold is also involved in the switching device the mass bus of the electrical system with the switching device commutated.

Thus, if a supply branch fails, it is ensured that the consumers are still supplied with electrical energy in the event of failure of one of the two energy supply devices. Because of the redundancy of the supply consumers remain fully functional, so that no or only small losses in the functionality of the consumer are to be expected by the failure of a power supply device. By the simultaneous use of a contactor in the switching device, this functionality can clotting be realized according to the complexity of components.

For example the energy storage device is a battery or a capacitor, in particular a so-called supercap, to provide a first supply voltage and the regenerative power supply device a generator or a fuel cell assembly for generating a second supply voltage.

in the Normal case of the power supply system are both power supply facilities switched on the electrical system. Depending on the energy management can be the Battery to be charged by the generator. In supplying consumers with the Battery, the generator can also be switched off.

In an advantageous embodiment are at least one or all Energy supply equipment is designed as intelligent components that are in case of failure independently over the separation Sagittarius or commute the switching device out of the load current path.

For a continuous, Uninterruptible power supply is provided by the switching device. The Switching device consists of a distributor circuit with two switchable current paths. In the individual current paths are in each case a switching means and a diode in series. With the switching means becomes the voltage supply of the consumers or the current path the consumer, in case of failure of one of the two power supply facilities commutated to the intact power supply device and the faulty power supply device disconnected or in the Freewheel switched.

In a preferred embodiment are the switching means and each connected in series Diodes in the two commutated current paths as uniform Components, designed as a so-called switch diodes.

alternative can the switching means of the switching arrangement as a mechanical or electronic Switch be formed. This is easy and effective Way a separation of the electrical load from the faulted supply branch ensured.

Furthermore the switching device in the commutated current paths one each Fuse, in particular a fuse, a conductor narrowing or a self-resetting Fuse included. This can damage the Consumers avoided due to a faulty supply branch become.

In another possible embodiment the switching device may have a current limiting, the at too high currents triggers. By a current limitation, in particular with a temperature protection, can thus destruction by inadmissible high currents be avoided at the connected consumers.

Further can by means of the switching device by commutating the current paths alternatively the functionality one or more supply branches. Likewise, by commutation checked be whether the device for redundant power supply of Consumer fully functional is.

Further Advantages and advantageous embodiments of the invention are described below using a drawing closer described.

there demonstrate:

1 An exemplary embodiment of an electrical system with two power supply devices Device for redundant power supply and a switching device with two commutated current paths.

1 shows a wiring system 1 for the redundant energy supply of one or more consumers 2 coming from two power supply device 4.1 and 4.2 be supplied. In a first power supply device 4.1 it is a battery. In a hybrid vehicle, the first power supply device 4.1 as a traction battery or a capacitor, also called Supercap may be formed. A second power supply device 4.2 may be embodied as a generator or a fuel cell assembly.

The power supply facilities are via supply branches 6.1 and 6.2 with the plus bus 6.4 connected to the electrical system.

In case of a simple error case, only in one of the supply branches 6.1 respectively. 6.2 or in one of the two energy supply devices the consumer or consumers 2 continue to provide energy is with a switching device 8.3 the consumer current path to the faultless supply branch 6.1 or 6.2 , or switched the intact power supply device. Depending on the structure of the vehicle electrical system structure 1 can the switching device 8.3 the plus bus or the minus bus of the consumer power path commute. In the embodiment according to 1 commutes the switching device 8.3 the mini bus.

For commutation of the current paths, the switching device has a center connection for the line to be commutated and two separate power lines coming from the center connection. In both outgoing power lines are in series against the negative terminal of the energy storage device, a diode and a switching means in the current path. As a switching means, for example, serves a mechanical or electronic switch, and a contactor can be used. In the current path to the regenerative power supply device, however, there is only the freewheeling diode 10.2 , That is, the regenerative load current path is connected to one of the two outgoing power lines of the switching device between the diode and switching means, so that there are no switching means of the switching device in the regenerative load current path. The two switching means of the switching device are each in the possible current paths to the energy storage device. This makes it possible to use the necessary for safety reasons anyway necessary contactors for the galvanic decoupling of the energy storage simultaneously in the switching device for the commutation of the load current path.

For example, is the energy storage device 4.1 or the supply line 6.1 open incorrectly for safety reasons, to ensure complete galvanic isolation of the on-board energy storage all switching means 8.1 . 12 . 8.2 with which the energy storage device is connected to the load current path. The load current path is thereby via the freewheeling diode 10.2 on the regenerative power supply device 4.2 commutated.

If, for example, an error in the regenerative power supply device 4.2 , or the associated supply line 6.2 occurred, the regenerative power supply device of the energy storage device via a disconnector, in the embodiment shown switching means 8.2 , which is at the same time a switching means of the switching device, disconnected. The defective regenerative power supply goes through the freewheeling diode 10.2 in the freewheel and the load current path is over the second branch of the switching device, in the illustrated embodiment via the switching means 12 and the diode 10.1 , commutated to the energy storage device. For this purpose, the remaining release agent, in the illustrated embodiment, the release agent 8.1 and 12 , closed in the consumer current path between energy storage device and consumer.

Depending on the structure and function of the vehicle electrical system structure 1 can the switching arrangement 8.3 In a manner not shown include a fuse, in particular a fuse, a conductor narrowing or a self-resetting fuse. Also, a current limiting can be provided, which triggers at high currents.

The particular advantages of the invention are that the contactors to galvanic separation of the energy storage device of the regenerative Energy supply device, in case of failure at the same time for the commutation the consumer current path used on the remaining intact power supply device can be.

Claims (7)

Contraption ( 1 ) to the redundant power supply of at least one consumer ( 2 ) with an energy storage device and a regenerative power supply device, both of which are commutated with a switching device to the load current path of the at least one consumer, characterized in that the switching device for commutation of the load current paths at least partially uses the contactor of the energy storage device as switching means for the commutation. Apparatus according to claim 1, characterized in that the energy storage device ( 4.1 ) a battery or a capacitor for providing a first supply voltage and the second power supply device ( 4.2 ) is a generator or a fuel cell assembly for generating a second supply voltage. Device according to one of claims 1 to 2, characterized in that at least one or all energy supply devices ( 4.1 . 4.2 ) are designed as intelligent components, which in the event of a fault independently from the associated supply branch ( 6.1 . 6.2 ) switch off. Device according to one of claims 1 to 3, characterized that the switching means of the switching device mechanical or electronic Switches or switch diodes are. Device according to one of claims 1 to 4, characterized in that the switching device ( 8.3 ) comprises a fuse, in particular a fuse, a conductor narrowing or a self-resetting fuse. Device according to one of claims 1 to 4, characterized in that the switching device ( 8.3 ) has a current limit, which triggers at high currents. Method for the redundant power supply of at least one consumer ( 2 ) with an energy giespeichereinrichtung and a regenerative power supply device, both of which are commutated with a switching device to the load current path of the at least one consumer, characterized in that in case of failure of one of the two power supply devices with the switching device either the plus bus or the ground bus of the load current paths is commuted to the intact remaining power supply device and the defective power supply device is disconnected either via contactors or in the case of a defective regenerative power supply device this is switched to freewheeling.