DE102020104732A1 - EMC assembly for an electrically powered vehicle - Google Patents

Abstract

An assembly for an electrically powered vehicle comprises a charging socket (18) coupled to a charging line (20) for charging a high-voltage storage unit (12) of the vehicle and an EMC filter (14) for suppressing line-related interference when charging the high-voltage storage unit (12). When the assembly is installed in the vehicle, the EMC filter (14) is arranged in the vicinity of the charging socket (18). An electrically powered vehicle with such an assembly also comprises a high-voltage storage device (12) with a connection panel (10). The EMC filter (14) is arranged outside the connection panel (10).

Description

The invention relates to an assembly for an electrically powered vehicle with a charging socket coupled to a charging line for charging a high-voltage battery of the vehicle and an EMC filter for suppressing line-related interference when charging the high-voltage battery.

Electrically powered vehicles, which should include purely electrically powered vehicles and plug-in hybrid vehicles, have a drive battery (high-voltage storage, HVS) to provide the electrical energy required to propel the electric vehicle. The high-voltage battery can be charged with electrical energy from an external charging station. To do this, a charging plug from the charging station is plugged into a charging socket on the vehicle, from which a high-voltage line leads to the high-voltage storage unit. When charging with alternating current (usually 3-phase alternating current in Europe), an inverter in the vehicle is used to rectify the alternating current.

To suppress electromagnetic interference when charging the high-voltage battery, EMC filters (electromagnetic compatibility filters), also known as EMI filters (electromagnetic interference filters), are used to prevent such interference from spreading. An EMC filter typically has a ferrite core that increases the inductance of the high-voltage line so that high frequencies are effectively attenuated. An active EMC filter has additional elements that must be supplied with electrical energy.

In the current electric vehicles, such an EMC filter is located in the connection panel of the high-voltage battery. There, the EMC filter builds up almost 1: 1 in the vehicle's dimensional chain with regard to the vehicle's longitudinal direction (direction of travel). Since it is usually an active EMC filter with a corresponding size, this disadvantage is particularly noticeable.

The object of the invention is to optimize the installation situation for the EMC filter with regard to the installation space available in an electric vehicle.

This object is achieved by an assembly for an electrically driven vehicle with the features of claim 1. Advantageous and expedient configurations of the assembly according to the invention are specified in the subclaims.

The invention for an electrically driven vehicle comprises a charging socket coupled to a charging line for charging a high-voltage storage unit of the vehicle and an EMC filter for suppressing line-related interference when charging the high-voltage storage unit. When the assembly is installed in the vehicle, the EMC filter is located in the vicinity of the charging socket.

The invention is based on the knowledge that an arrangement of the EMC filter provided for the charging process outside the connection field of the high-voltage storage device is basically possible. As already explained, an arrangement of the EMC filter in the vicinity of the high-voltage storage unit is not recommended from the point of view of the entire vehicle, but an EMC filter arranged according to the invention in a vicinity of the charging socket fulfills the intended purpose of suppressing interference when charging the high-voltage storage unit and makes it possible to use the in the area of the connection panel to use the free space differently or to shorten the vehicle length accordingly. A “near area of the charging socket” in the context of the invention is to be understood as an overall area in and on the charging socket and an area of the high-voltage line between the charging socket and the connection panel.

Due to the arrangement according to the invention, it is basically possible to use a passive EMC filter that does not contain any active elements and thus does not require any electrical energy. Compared to an active EMC filter, this means significant efficiency and cost advantages.

According to a first aspect of the invention, the EMC filter can be inserted into the high-voltage line, the EMC filter, in particular a ferrite core of the (passive) EMC filter, being arranged in an area of the vehicle that is a maximum of 400 mm, preferably a maximum of 300 mm mm, more preferably a maximum of 200 mm away from the charging socket. It has been found that the effect of the ferrite core has a sufficient effect within this range. In principle, the closer it is to the source of interference (here the charging socket), the better the effect of the ferrite core.

In terms of production technology, it is advantageous to attach the EMC filter directly or indirectly to an outside of a housing of the charging socket. With such an arrangement, the charging socket can be prefabricated together with the EMC filter as a structural unit (package).

According to a first variant of this solution, when the charging socket is installed in the vehicle, the EMC filter is arranged on a side of the housing pointing in the longitudinal direction of the vehicle.

According to a second variant, when the charging socket is installed in the vehicle, the EMC filter is arranged on a side of the housing pointing transversely to the longitudinal direction of the vehicle, in particular on the bottom of the charging socket housing. In this case, no installation space is required in the longitudinal direction of the vehicle for the EMC filter.

According to a second aspect of the invention, the EMC filter is integrated into the charging socket, i.e. the EMC filter is arranged at the end of the high-voltage line connected to the charging socket.

In particular, the EMC filter is arranged within a housing of the charging socket. For this embodiment, a charging socket housing is to be provided which is suitable for (additional) accommodation of the essential components of the EMC filter. Any additional heat input from active components of the EMC filter (e.g. capacitors) must also be taken into account.

The invention also creates an electrically driven vehicle with an assembly of the type described above and a high-voltage storage device with a connection panel. According to the invention, the EMC filter is arranged outside the connection field in a vicinity of the charging socket.

Charging sockets of electric vehicles are typically arranged in an opening in the body of the vehicle. This solution, however, leads to a great assembly effort, since the charging socket has to be securely sealed on two levels. An advantageous solution according to the invention, however, provides for the charging socket to be arranged under a rear light of the vehicle. In comparison to a lateral arrangement in the vicinity of a wheel arch, other installation spaces are available here, which are irrelevant for the longitudinal extension of the vehicle. In addition, the positioning of the charging socket under the rear light follows the basic idea of detaching the charging socket from the body and attaching it to a through opening of an add-on body part. The charging socket is then only sealed by means of the loading flap, so that a sealing level is omitted and the installation effort for the charging socket is significantly reduced. Another advantage is that the vehicle can always be built with the same body, regardless of country-specific preferences (charging socket on the left or right side of the vehicle), which simplifies the production of the vehicle for different markets.

• - 1 eine Schnittansicht eines Fahrzeugbereichs mit einem im Anschlussfeld angeordneten EMV-Filter;
• - 2 eine Schnittansicht eines Fahrzeugbereichs ohne einen im Anschlussfeld angeordneten EMV-Filter;
• - 3 eine erfindungsgemäße Baugruppe mit einem von der Ladedose entfernt angeordneten EMV-Filter;
• - 4 eine Schnittansicht eines Radkastenbereichs eines Fahrzeugs mit einer Ladedose;
• - 5 eine Schnittansicht eines Heckbereichs eines Fahrzeugs mit einer Ladedose;
• - 6 eine perspektivische Darstellung von zwei Varianten einer erfindungsgemäße Baugruppe mit einem an einem Gehäuse der Ladedose angeordneten EMV-Filter;
• - 7 eine erste Schnittansicht einer erfindungsgemäßen Baugruppe mit einem in eine Ladedose integrierten EMV-Filter; und
• - 8 eine zweite Schnittansicht der erfindungsgemäßen Baugruppe mit dem in die Ladedose integrierten EMV-Filter.

Further features and advantages of the invention emerge from the following description and from the accompanying drawings, to which reference is made. The drawings show schematically:

• - 1 a sectional view of a vehicle area with an EMC filter arranged in the connection panel;
• - 2 a sectional view of a vehicle area without an EMC filter arranged in the connection panel;
• - 3 an assembly according to the invention with an EMC filter arranged remotely from the charging socket;
• - 4th a sectional view of a wheel arch area of a vehicle with a charging socket;
• - 5 a sectional view of a rear area of a vehicle with a charging socket;
• - 6th a perspective view of two variants of an assembly according to the invention with an EMC filter arranged on a housing of the charging socket;
• - 7th a first sectional view of an assembly according to the invention with an EMC filter integrated into a charging socket; and
• - 8th a second sectional view of the assembly according to the invention with the EMC filter integrated into the charging socket.

In the 1 and 2 is shown schematically in each case a sectional view in the area of a rear wheel arch of an electric vehicle.

In 1 is a conventional installation situation for a high-voltage storage system 12th shown in an electric vehicle. The high-voltage storage 12th is behind the body 2 of the vehicle in an area in front of the rear axle carrier 4th arranged. The high-voltage storage 12th includes a bolted stack of cells over a connector panel 10 by means of a DC charging plug 6th with a high-voltage line 20th connected to a charging socket (in 1 not shown). The cell stack and the connector panel 10 are through a lid 8th protected.

In the connection panel 10 of the high-voltage storage system 12th is an active EMC filter 14th to suppress line-related interference when charging the high-voltage battery 12th arranged. It can be seen that this arrangement of the EMC filter 14th requires a relatively large amount of installation space in the longitudinal direction or direction of travel x of the electric vehicle.

2 In comparison, shows an installation situation in which there is no EMC filter in the connection panel 10 is installed. Accordingly, it can be seen here that a relatively large amount of installation space has become free in the x direction. In particular, the connector panel is 10 made shorter in this direction. The space saved can either be used for other purposes or it can help shorten the length of the vehicle. The EMC filter 14th in this case is outside the connection field 10 in the vicinity of the vehicle-side charging socket 18th of the electric vehicle arranged, as will be explained below with reference to some exemplary embodiments of assemblies according to the invention.

A first possible arrangement of the EMC filter 14th outside the connector panel 10 is in 3 shown. The EMC filter 14th is in the high-voltage line 20th inserted by the charging socket 18th to the connection panel 10 of the high-voltage storage system 12th leads. The modular EMC filter 14th is a passive filter and housed in a metal housing or on a metal plate 22nd assembled. The case or the plate 22nd is electrically conductive to the body 2 of the electric vehicle attached. The contacts 24 for connecting the EMC filter 14th with the high-voltage line 20th are isolated.

the 4th and 5 show - depending on the location of the charging socket 18th and the course of the high-voltage line 20th - possible rooms in which the high-voltage line 20th inserted EMC filters 14th can be placed.

At the in 4th The shown installation situation is the charging socket 18th near a wheel arch 26th of the electric vehicle. With 28 is an area of high-voltage power lines 20th marked, which is a maximum distance of 300 mm from the charging socket 18th Has. The EMC filter should be in this area 14th , especially a ferrite core of the EMC filter 14th , be arranged so that it fulfills its function satisfactorily without the need for active components for this.

5 shows another installation situation in which the charging socket 18th under a rear light 30th of the electric vehicle is placed. Here, too, is a maximum of 300 mm from the charging socket at 28 18th remote area of the high-voltage line 20th marked in which the passive EMC filter 14th , in particular its ferrite core, should be arranged.

6th shows another embodiment, more precisely two variants, of an assembly with a charging socket 18th and a passive EMC filter 14th . The EMC filter 14th is here at the end of the high-voltage line on the charging socket side 20th arranged and directly on an outside of a housing 32 the charging socket 18th appropriate.

According to a first variant of this embodiment, the EMC filter 14th on one of the sides of the socket housing 32 attached, which point in the vehicle longitudinal direction x. According to a second variant of this embodiment, the EMC filter 14th on a side of the charging socket housing pointing transversely to the longitudinal direction x of the vehicle 32 appropriate.

In the 7th and 8th Another embodiment is shown in which the passive EMC filter 14th in the charging socket 18th is integrated. The EMC filter 14th is here inside the case 32 the charging socket 18th arranged. The electrical contacts of the EMC filter 14th in the charging socket 18th are encapsulated.

In the case of the 7th and 8th The exemplary design shown has the EMC filter 14th two boards 36 with one capacitor each 38 and one between the boards 36 arranged ferrite core 40 on.

Claims (10)

Assembly for an electrically powered vehicle, with a charging socket (18) coupled to a charging line (20) for charging a high-voltage storage unit (12) of the vehicle, and an EMC filter (14) for suppressing line-related interference when charging the high-voltage storage unit (12) , characterized in that when the assembly is installed in the vehicle, the EMC filter (14) is arranged in a vicinity of the charging socket (18). Assembly according to Claim 1 , characterized in that the EMC filter (14) is a passive filter. Assembly according to Claim 1 or 2 , characterized in that the EMC filter (14), in particular a ferrite core (40) of the EMC filter (14), is arranged in an area which is a maximum of 400 mm, preferably a maximum of 300 mm, more preferably a maximum of 200 mm from the Charging socket (18) is removed. Assembly according to one of the Claims 1 until 3 , characterized in that the EMC filter (14) is arranged on an outside of a housing (32) of the charging socket (18). Assembly according to Claim 4 , characterized in that when the charging socket (18) is installed in the vehicle, the EMC filter (14) is arranged on a side of the housing (32) pointing in the longitudinal direction of the vehicle. Assembly according to Claim 4 , characterized in that when the charging socket (18) is installed in the vehicle, the EMC filter (14) is arranged on a side of the housing (32) pointing transversely to the longitudinal direction (x) of the vehicle. Assembly according to one of the Claims 1 until 3 , characterized in that the EMC filter (14) is integrated into the charging socket (18). Assembly according to Claim 7 , characterized in that the EMC filter (14) is arranged within a housing (32) of the charging socket (18). Electrically powered vehicle with an assembly according to one of the preceding claims and a high-voltage storage device (12) with a connection panel (10), characterized in that the EMC filter (14) is arranged outside the connection panel (10). Electrically powered vehicle after Claim 9 , characterized in that the charging socket (18) is arranged under a rear light (30) of the vehicle.

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