DE102016215663A1 - Testing device for high-voltage systems - Google Patents

Abstract

The invention relates to a test device (1) for high-voltage systems, wherein the test device (1) comprises a voltage measuring device (3) and a current measuring device (6), each having a transducer, wherein the transducers are designed such a high-voltage signal or a high current signal in a Low-voltage signal or low-current signal to be converted, wherein the test device (1) comprises an RF-shielded housing (2) in which the voltage measuring device (3) and the current measuring device (6) are arranged, wherein the test device (1) at least one signal input (9) which is galvanically connected to at least one high-voltage line (10, 11) in the test device (1).

Description

The invention relates to a test device for high-voltage systems.

In high-voltage systems, such as in an electric vehicle, the testing of voltage and current is necessary.

From the DE 10 2014 202 626 A1 a battery management system for a battery having a plurality of battery cells is known in series, comprising a battery control device, a plurality of low-voltage measuring devices, with each of which the voltage of one or more battery cells is measurable, and one or more high-voltage measuring devices for a voltage across several or all battery cells. Alternatively or additionally, the system comprises at least one current measuring device, with which a current from or through the battery can be measured. In this case, a measuring module is provided which comprises the high-voltage measuring device and / or the current measuring device. In this case, the high-voltage measuring device has a high-voltage low-voltage converter.

A common problem with high voltage systems is electromagnetic compatibility. In particular, during development, but also during operation, a noise immunity of components must be guaranteed and / or verifiable.

The invention is therefore the technical problem of improving a test device for high-voltage systems.

The solution of the technical problem results from a test device with the features of claim 1. Further advantageous embodiments of the invention will become apparent from the dependent claims.

The test device for high-voltage systems has a voltage measuring device and a current measuring device, each having a converter, wherein the transducers are designed to convert a high-voltage signal or a high-current signal into a low-voltage signal or a low-current signal. The test device has an RF-shielded housing, in which the voltage measuring device and the current measuring device are arranged, wherein the test device has at least one signal input, which is galvanically connected to at least one high-voltage line in the test device. This results in a very compact test device, which can also be used for coupling of HF interference signals for testing purposes, which is prevented by the RF shielding of the housing, the coupling of parasitic interference signals.

In one embodiment, the transducers are designed as galvanically isolated transducers, so that the voltage and current signals can be tapped off with simple measurement technology, whereby contact protection is ensured, even in the case of a defect of a converter.

The at least one signal input for the HF interference signals, however, is electrically connected to at least one high-voltage line, so that preferably this is associated with a lock which is designed such that in a locking position, the signal input is safe to touch and accessible in an unlocking position. For the specific embodiment of the lock a variety of embodiments are possible. For example, the lock is a lockable flap, so that only trained professionals with the appropriate key or tool can open or remove the flap.

In a further embodiment, the test device has an input and an output for high-voltage lines, wherein a connector, preferably a connector, is arranged at the input and the output. Thus, the tester can be very easily temporarily inserted into a high-voltage system. The connectors or connectors are adapted to the connectors or connectors used in the high-voltage system. To test a connected connector is then simply pulled and connected the test device between them. It should be noted, however, that the test device can also be permanently installed in the high-voltage system.

In a further embodiment, shield supports are arranged on the housing so that the shielding of incoming high-voltage lines can be deposited on the housing and continued, so that the shielding on the connectors is not interrupted. This prevents parasitic coupling of interference radiation.

In a further embodiment, the test device has a pilot line, which is guided through the test device. As a result, when installing the test device in the high-voltage system, an existing pilot line must not be separated.

A preferred field of application of the test device is the use in a high-voltage system of an electric or hybrid vehicle.

The invention will be explained in more detail below with reference to a preferred embodiment. The single FIGURE shows a schematic block diagram of a test device.

The testing device 1 for high-voltage systems has an RF-shielded housing 2 on, which is for example made of metal or metallized plastic. Next, the test facility 1 a tension measuring device 3 with a galvanically isolated converter 4 whose low-voltage side is connected to a measuring output 5 is guided. Next, the test facility 1 a current measuring device 6 with a galvanically isolated converter 7 whose low-current side is connected to a measuring output 8th is guided. A signal input 9 is with a positive high-voltage line 10 and a signal input 9 is with a negative high-voltage line 11 directly connected, being between the positive high-voltage line 10 and the negative high-voltage line 11 a pilot line 12 is arranged. Before the signal input 9 is a catch 13 arranged. Next, the test facility 1 an entrance 14 and an exit 15 for the high-voltage cables 10 . 11 and the pilot line 12 on. At the entrance 14 is a connector 16 and a screen tray 17 arranged. Corresponding is at the exit 15 also a connector 18 arranged, but between housing 2 and connectors 18 a short, flexible, shielded cable 19 is arranged. Finally, at the exit 15 another screen storage 20 arranged.

Now, for example, the test device 1 are looped into a high-voltage system, so a connector is pulled to a component and this connector with the connector 16 connected, the connector 18 is inserted into the component. After removing the lock 13 An RF noise source can be connected and the effects on the component checked. About the measuring outputs 5 . 8th can voltage and current on the high voltage lines 10 . 11 be measured.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014202626 A1 [0003]

Claims (8)

Testing device ( 1 ) for high-voltage systems, the test equipment ( 1 ) a voltage measuring device ( 3 ) and a current measuring device ( 6 ), each having a transducer, wherein the transducers are configured to convert a high-voltage signal or a high-current signal into a low-voltage signal or low-current signal, characterized in that the test device ( 1 ) an RF shielded housing ( 2 ), in which the tension measuring device ( 3 ) and the current measuring device ( 6 ), the test device ( 1 ) at least one signal input ( 9 ), which is galvanically connected to at least one high-voltage line ( 10 . 11 ) in the test facility ( 1 ) connected is. Test device according to Claim 1, characterized in that the transducers are in the form of galvanically isolated transducers ( 4 . 7 ) are formed. Test device according to claim 1 or 2, characterized in that the signal input ( 9 ) on the housing ( 2 ) a lock ( 13 ), which is designed such that in a locking position the signal input ( 9 ) is touch-safe and accessible in an unlocked position. Test device according to one of claims 1 to 3, characterized in that the test device ( 1 ) an entrance ( 14 ) and an output ( 15 ) for high-voltage cables ( 10 . 11 ), wherein at the entrance ( 14 ) and the output ( 15 ) is arranged in each case a connector. Test device according to claim 4, characterized in that the connectors as plug connectors ( 16 . 18 ) are formed. Test device according to claim 4 or 5, characterized in that on the housing ( 2 ) Shielding pads ( 17 . 20 ) are arranged. Test device according to one of Claims 4 to 6, characterized in that at least one connector has a cable section ( 19 ) between the connector and the housing ( 2 ) is arranged. Test device according to one of the preceding claims, characterized in that the test device ( 1 ) a pilot line ( 12 ) having.

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