DE102016004583A1 - Overvoltage protection unit of a vehicle electrical system and vehicle, in particular commercial vehicle with a vehicle electrical system - Google Patents

Abstract

The invention relates to an overvoltage protection unit of a vehicle electrical system with at least one vehicle battery. According to the invention, an electrical series connection of at least one overvoltage protection element (2, 3, 4; 16) and at least one thermal fuse (8, 9; 17) in a thermally coupled arrangement of the at least one overvoltage protection element (2, 3, 4; ), and the at least one thermal fuse (8, 9; 17), wherein the overvoltage protection unit (1) between a ground terminal (I) of the electrical system and a battery terminal (II or III) and / or between two Batteriepolanschlüssen (II and II) is arranged.

Description

The invention relates to an overvoltage protection unit of a vehicle electrical system having at least one vehicle battery according to the preamble of claim 1 and to a vehicle, in particular a commercial vehicle, having a vehicle electrical system according to the preamble of claim 8.

Overvoltage phenomena can occur in vehicle electrical systems due to various causes, in particular in the case of power consumers in vehicle electrical systems without adequate protection against such overvoltage phenomena, vehicle field damage with vehicle failures and high consequential costs can occur. Measures to protect against voltage phenomena are known and can be attached to individual electrical / electronic components or building modules of the vehicle electrical system.

In general, overvoltage protection elements of different types are known which are arranged in a parallel connection to a component to be protected and which, after exceeding a voltage threshold in the event of an overvoltage phenomenon, change from a high-impedance state to a low-resistance state and thereby bypass the current of an overvoltage pulse at the component to be protected. This should not build up the component to be protected destructive or damaging voltage above the voltage threshold.

A suppressor diode (TVS diode) is one such known overvoltage protection element and is available on the market with a suitable voltage threshold, or breakdown voltage, in a range slightly above a vehicle electrical system voltage.

Further, a varistor is such a known overvoltage protection element. Such a varistor is a voltage-dependent resistor which, with an applied threshold voltage of less than about 39 volts, represents a virtually non-conductive blocking element and becomes a low-resistance conductor above the threshold voltage. Varistors are usually produced on the basis of zinc oxide together with other metal oxides, wherein a corresponding powder is pressed and sintered in tablet form. On two sides, such a blank is then contacted with terminals and cast in particular in epoxy resin.

Although such suppressor diodes and / or varistors can in principle also be used at a central location as overvoltage protection elements in a vehicle electrical system, they can, in conjunction with their protective function, lead to further problems and considerable damage:
In extreme overvoltage phenomena, such as may occur, for example, by lightning in a vehicle electrical system, very high overvoltages are generated with correspondingly high currents, which would then flow through a varistor and / or a suppressor diode. This could damage a suppressor diode or a varistor due to overheating. If this would make the suppressor diode or the varistor high impedance, for example by a conductor interruption, although the overvoltage protection would fail, but without the protective element itself could cause further damage.

It would be different and more critical if the heat damage would cause the suppressor diode or the varistor to be low-ohmic. Then, in extreme overvoltage phenomena, the overvoltage protection element could become a dangerous heating element with high heat development, which could result in an extreme fire, in particular by a housing in the extreme case. Thus, for extreme overvoltage phenomena, a suppressor diode or a varistor as an overvoltage protection element could itself become a hazardous element.

The object of the invention is therefore to propose an overvoltage protection unit of a vehicle electrical system, in which overvoltage protection elements used, in particular suppressor diodes and / or varistors, do not form a hazard even with extreme overvoltage phenomena. Another object of the invention is to propose a vehicle, in particular a commercial vehicle with a vehicle electrical system, with a corresponding overvoltage protection unit.

The object is achieved with regard to the overvoltage protection unit having the features of claim 1 and with regard to the vehicle having the features of claim 8. Further advantageous embodiments are the subject of the dependent claims.

According to claim 1, an overvoltage protection unit according to the invention of a vehicle electrical system with at least one vehicle battery is characterized by an electrical series connection of at least one overvoltage protection element and at least one thermal fuse in a thermally coupled arrangement of the at least one overvoltage protection element and the at least one thermal fuse , In addition, such an overvoltage protection unit should be connected directly or indirectly between a ground connection of the vehicle electrical system and a battery pole connection and / or between battery pole connections, that is to say be arranged centrally. Preferably, a varistor and / or a suppressor diode are used as overvoltage protection elements. As thermal fuses, fuses or PTC resistors are preferably used as PTC thermistors.

The thermal coupling of an overvoltage protection element with a series-connected thermal fuse ensures that with appropriate design and dimensioning even with extreme overvoltage phenomena, the current through the overvoltage protection element is reduced so that there is no critical overheating with a fire hazard. If a fuse is used as a thermal fuse, it melts due to the thermal coupling with the hot overvoltage protection element and / or by the high current through, so that the current path is interrupted by the overvoltage protection element and no further overheating can occur. If a PTC resistor is used as PTC thermistor as a PTC thermistor, this will because of the thermal coupling with the overvoltage protection element and the associated temperature rise very high, so that the then high resistance resistor also virtually interrupts the current path through the overvoltage protection element and another Overheating prevented.

The overvoltage protection unit can advantageously have a protective module as a housing with outwardly directed terminals, preferably with plug-in connections.

In a specific arrangement of the overvoltage protection unit, the at least one overvoltage protection element, in particular a plurality of overvoltage protection elements, and the at least one thermal fuse, in particular a plurality of thermal fuses, be associated with each other for thermal coupling in a close arrangement, for example in a tight planar arrangement (for example, according to the following 2 ), for example on a printed circuit board, or alternatively (for example, according to the following 3 ) are mounted in a close spatial arrangement or assigned to each other. The term "narrow" encompasses any such assignment, in particular planar or spatial assignment, of the components to be thermally coupled to each other in which these are directly or indirectly coupled by, for example, heat conduction and / or thermal radiation or by, for example, heat conduction and / or thermal radiation can be coupled together. It is preferably provided that the thermal coupling preferably by the immediate vicinity and / or mutual contact and / or by means of intervening and / or with the components in example thermally conductive contact standing, for example, heat-conducting elements and / or materials in particular by heat conduction and / or heat radiation takes place. It is essential that a critical overheating with risk potential of the overvoltage protection elements is prevented by a thermal reaction of the series thermal fuses.

In a particularly preferred embodiment, the overvoltage protection unit has a star electrical circuit of three overvoltage protection elements with three connection points in between and with two thermal fuses. In this case, a first connection point is directly or indirectly connected to a ground connection of the electrical system. At a second connection point, a first thermal fuse is connected, which is further directly or indirectly connected to a first battery terminal, in particular the terminal 30, that is, to the positive pole of the battery. At the third connection point, a second thermal fuse is connected, which is further directly or indirectly connected to a second battery terminal, in particular to terminal 31, that is, to the negative pole of the battery.

With this circuit, an overvoltage protection for the entire vehicle electrical system is achieved centrally, with protection against overvoltages in the event of overvoltage phenomena between a ground connection and one of the battery pole connections as well as overvoltage phenomena between the two battery pole connections with only one module is made central. Further, in the region of the second connection point and / or the third connection point, a measuring line for a diagnostic tap may be connected, which is expediently led out of the housing, in particular in the case of an arrangement in a housing, to form a plug connection. With a corresponding diagnosis, the function of the overvoltage protection unit, for example the function of a protective device, can be checked.

Furthermore, a vehicle, in particular a commercial vehicle, is claimed which has an above-described overvoltage protection unit in conjunction with its vehicle electrical system. In this case, such an overvoltage protection unit can advantageously be accommodated in a housing corresponding to a standardized plug relay housing for motor vehicles, so that it can be plugged into a free slot in the fuse box of the vehicle and, in particular, can also be retrofitted.

Based on a schematic drawing, the invention will be further explained below by way of example.

Show it:

1 the electrical circuit of a preferred embodiment of an overvoltage protection unit according to the invention,

2 a concrete exemplary planar arrangement of the elements of the circuit 1 on a board,

3 an alternative spatial arrangement too 2 .

4 a standardized plug relay housing for motor vehicles,

5 the bottom of the plug relay housing with standardized plug connection,

6 a schematic circuit of the components contained in the plug relay housing, and

7 a stationary characteristic of a varistor.

In 1 is the circuit of a preferred embodiment of an overvoltage protection unit 1 shown with a star electrical circuit of three overvoltage protection elements 2 . 3 . 4 with three connection points in between 5 . 6 . 7 and with two thermal fuses 8th . 9 , As overvoltage protection elements 2 . 3 . 4 Here are examples of suppressor diodes with the corresponding symbols and as thermal fuses 8th . 9 Thermo-fuse with the corresponding symbols is used as an example.

A first connection point 5 is with a ground connection I connected to the electrical system. At a second connection point 6 after the overvoltage protection element 2 is a first thermal fuse 8th connected, with their further connection at the connection point II is connected to the standard terminal 30 according to the positive pole (B +) of the battery directly or indirectly.

At the third connection point 7 the star connection between the overvoltage protection elements 3 and 4 is the second thermal fuse 9 connected, which continues directly or indirectly at the connection point III is connected to the standard terminal 31 corresponding to the negative terminal (B-) of the battery directly or indirectly.

In 1 is the inventively mandatory thermal coupling for reasons of clarity not yet graphically represented. This is only in the 2 with the dashed arrow structure 11 indicated.

In 2 is the circuit shown schematically after 1 in a concrete narrow or planar arrangement on a circuit board 10 shown. The overvoltage protection elements 2 . 3 . 4 as suppressor diodes lie in series next to each other and between the overvoltage protection elements 2 and 3 as well as between the overvoltage protection elements 3 and 4 are close to each other or close to each other or immediately adjacent each of the thermal fuses 8th and 9 , With the dashed arrow structure 11 Here is the thermal coupling with a heat transfer from the surge protection elements 2 . 3 . 4 to the assigned thermal fuses 8th . 9 shown schematically. Next are the ground connection I as well as the connection points II and III seen.

Across from 1 Here are optionally optional diagnostic lines 12 and 13 drawn in each case with the connection point 6 or connection point 7 are connected and the for a diagnostic tap to check the function of the components to external terminals IV and V are guided.

While in 2 the thermal coupling of the overvoltage protection elements 2 . 3 . 4 to the thermal fuses 8th . 9 is realized by a arranged in a plane flat tight package shows 3 an alternative thermal coupling with a spatially dense arrangement of the elements used. The circuit after 1 respectively. 2 has the following function:
In a surge phenomenon between the terminals I and II or the connections I and III or the connections II and III is the respectively applied there over-voltage protection element as suppressor diode conductive. For example, with an overvoltage phenomenon between the terminals I and II the suppressor diode 2 conductive and the current gets out of the suppressor diode via the current path 2 and the thermal fuse as a fuse 8th derived. The suppressor diode heats up 2 , Before a critical overheating with a potential hazard is also the thermal fuse 8th heated by the thermal coupling and the current so far that the thermal wire melts and the current path is interrupted.

In 4 is a perspective view of a standard plug relay housing shown as it is plugged into the fuse box of a vehicle. 5 shows the plug relay housing from below with its housing bottom 15 and the standard plug connections with the numbers 30, 85, 86, 87. Such a standardized plug relay housing 14 is well suited for receiving and as part of the overvoltage protection unit 1 , By way of example, an overvoltage protection element is schematically illustrated as a bidirectional variator 16 with its corresponding circuit symbol and a series thermal fuse as a PTC resistor 17 (PTC thermistor) shown with its associated circuit diagram, the dashed arrows 18 to indicate their thermal coupling. In 6 So here is the first branch of the star connection after 1 according to the suppressor diode 2 and the thermal fuse 8th however with a variator 16 and a PTC resistor 17 shown. For insertion in the plug relay housing 14 , The corresponding connections I and II here are plug connections 19 and 20 at the bottom of the case 15 of the plug relay housing 14 assigned.

In 7 is the default characteristic of the in 6 used variator 16 shown. It can be seen that the variator 16 With an applied voltage of up to approx. 20 volts, the current path is blocked with high resistance and then becomes lower-impedance with increasing voltage until it completely switches on at approx. 39 volts. He is thus suitable as an overvoltage protection element for only slightly lower, regular voltage in a vehicle electrical system.

LIST OF REFERENCE NUMBERS

1

Over-voltage protection unit

2

Overvoltage protection element (suppressor diode)

3

Surge protector

4

Surge protector

5

first connection point

6

second connection point

7

third connection point

8th

first thermal fuse

9

second thermal fuse

10

circuit board

11

dotted arrow structure

12

diagnostic line

13

diagnostic line

14

Plug relay housing

15

caseback

16

variator

17

PCT resistance

18

arrow

19

plug-in connection

20

plug-in connection

I

ground connection

II

Connection point terminal 30, battery +

III

Connection point terminal 31, battery

IV

connection

V

connection

Claims (9)

Overvoltage protection unit of a vehicle electrical system with at least one vehicle battery, characterized by an electrical series connection of at least one overvoltage protection element ( 2 . 3 . 4 ; 16 ) and at least one thermal fuse ( 8th . 9 ; 17 ) in a thermally coupled arrangement of the at least one overvoltage protection element ( 2 . 3 . 4 ; 16 ) and the at least one thermal fuse ( 8th . 9 ; 17 ), the overvoltage protection unit ( 1 ) between a ground connection ( I ) of the electrical system and a battery terminal ( II or III ) and / or between two battery terminals ( II and II ) is arranged. Overvoltage protection unit according to claim 1, characterized in that the at least one overvoltage protection element is a varistor ( 16 ) or a suppressor diode ( 2 . 3 . 4 ), and that the at least one thermal fuse is a fuse ( 8th . 9 ) or a PTC resistor ( 17 ) is a PTC thermistor. Overvoltage protection unit according to claim 1 or claim 2, characterized in that the overvoltage protection unit ( 1 ) a housing ( 14 ) with outgoing connections ( 19 . 20 ), preferably with plug connections ( 19 . 20 ), in which the at least one overvoltage protection element ( 16 ) and the at least one thermal fuse ( 17 ) are included with thermal coupling. Overvoltage protection unit according to one of the preceding claims, characterized in that the at least one overvoltage protection element ( 2 . 3 . 4 ), preferably several overvoltage protection elements ( 2 . 3 . 4 ), and the at least one thermal fuse ( 8th . 9 ), preferably several thermal fuses ( 8th . 9 ) associated with each other in a close arrangement for thermal coupling, are preferably associated and / or mounted in a tight planar arrangement, preferably on a printed circuit board, or in a close spatial arrangement. Overvoltage protection unit according to claim 4, characterized in that the thermal coupling of the components to be thermally coupled together by the immediate proximity and / or mutual contact and / or by means of intervening and / or with the components in contact elements and / or materials Heat conduction and / or thermal radiation takes place. Overvoltage protection unit according to one of the preceding claims, characterized in that the overvoltage protection unit ( 1 ) a star electrical circuit of three overvoltage protection elements ( 2 . 3 . 4 ) with three connection points in between ( 5 . 6 . 7 ) and with two thermal fuses ( 8th . 9 ), such that a first connection point ( 5 ) directly or indirectly with a ground connection ( I ) of the vehicle electrical system, that at a second connection point ( 6 ) a first thermal fuse ( 8th ), which continues directly or indirectly with a first Battery pole connection ( II ) is connected in particular to the terminal 30 of the electrical system according to battery +, and that at the third connection point ( 7 ) a second thermal fuse ( 9 ) connected directly or indirectly to a second battery terminal ( III ), in particular with the terminal 31 of the electrical system according to battery -, is connected. Overvoltage protection unit according to claim 6, characterized in that in the region of the second connection point ( 6 ) and / or the third connection point ( 7 ) a measuring line as a diagnosis line ( 12 . 13 ) is connected for a diagnostic tap. Vehicle, in particular commercial vehicle, with a vehicle electrical system with a vehicle battery and with an overvoltage protection unit ( 1 ) according to any one of the preceding claims. Vehicle according to claim 8, characterized in that the overvoltage protection unit ( 1 ) a housing according to a standard plug relay housing ( 14 ) For motor vehicles and thus inserted in a free slot in the fuse box of the vehicle, in particular retrofitted, is.

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