WO2014029538A1

WO2014029538A1 - Battery cell comprising an electronic circuit

Info

Publication number: WO2014029538A1
Application number: PCT/EP2013/063882
Authority: WO
Inventors: Bernhard Seubert; Thomas Woehrle; Markus Klausner; Joachim Fetzer; Stefan Butzmann; Holger Fink
Original assignee: Robert Bosch Gmbh; Samsung Sdi Co., Ltd.
Priority date: 2012-08-23
Filing date: 2013-07-02
Publication date: 2014-02-27
Also published as: EP2888773A1; DE102012214961A1

Abstract

The invention relates to a battery cell (40) that comprises a battery cell housing (30), a battery cell housing cover (28) and two battery cell terminals (11, 12), via which the battery cell (40) can be connected to a battery system. Furthermore, the battery cell (40) comprises a positive electrode (13) and a negative electrode (14) which are arranged inside the battery cell housing (30) and connected via a respective current path inside the battery cell housing (30) to a respective battery cell terminal (11, 12). The battery cell (40) further comprises an electronic circuit (10). According to the invention, at least one of the current paths between the positive electrode (13) or the negative electrode (14) and one battery cell terminal (11, 12) in each case comprises at least one switching means (1), which can be actuated by the electronic circuit (10).

Description

description

title

Battery cell with an electronic circuit The present invention relates to a battery cell with an electronic

Circuit via which at least one switching means can be controlled, which is arranged within a current path between a battery cell terminal and an electrode of the battery cell. State of the art

It is becoming apparent that in the future both in stationary applications (eg in wind turbines) and in vehicles (eg hybrid and hybrid vehicles)

Electric vehicles) increasingly new batteries or battery cells will be used, to the very high standards regarding their

Reliability can be provided. The background for these high requirements is that failure of the battery or of the battery cells can lead to a failure of the entire system (eg a failure of the traction battery in an electric vehicle) or even to a safety-relevant problem.

For this reason, the battery cells, for example, the battery cells of a lithium-ion battery, must be connected to semiconductor devices and sensors to maintain the safety and electrical functionality of the battery cell, for example, within a battery system upright.

In the prior art, such a circuit is external, so in other words, not within the battery cell but, for example, realized inside or outside of a battery system or a battery. However, this means that the battery cells of the Considered prior art alone does not represent intrinsically safe elements, but always on the reliability of external units

or components are used, which are used within the external wiring.

For example, DE 10 2009 036 608 A1 discloses a rechargeable battery having at least one rechargeable battery cell for providing a battery voltage, wherein the battery has at least one indicator element which provides a physical parameter and comprises at least one externally accessible communication port.

Disclosure of the invention

According to the invention, a battery cell is provided which comprises a battery cell housing, a battery cell housing cover and two

Battery cell terminals, via which the battery cell with a

Battery system is connectable. Furthermore, the battery cell comprises a positive electrode and a negative electrode, which are inside the

Battery cell housing arranged and connected via a respective current path within the battery cell housing, each having a battery cell terminal. Furthermore, the battery cell comprises an electronic circuit.

According to the invention, at least one of the current paths between the positive electrode or the negative electrode and in each case one battery cell terminal has at least one switching means, which can be controlled by the electronic circuit.

An advantage of such a battery cell is that a targeted position of the voltage and the current of the battery cell is possible by the battery cell internal control of the at least one switching means in the current path. As a result, the battery cell can be operated as an independent voltage or current source.

Preferably, the electronic circuit has a communication interface, via which the battery cell can be connected to a bus system. By such an embodiment, the battery cell, for example, data via a bus system with other components or units, For example, with a battery system, replace.

In a preferred embodiment, the electronic circuit has at least one sensor for detecting at least one measured variable of the battery cell. Thus, the sensor for detecting, for example, the

Battery cell states integrated directly into the battery cell and does not need to be provided externally.

Preferably, the at least one sensor is adapted to the

Battery cell voltage and / or the battery cell current and / or the

Battery cell pressure and / or to detect the battery cell temperature.

In a preferred further development of this embodiment, the electronic circuit has at least one arithmetic unit which is designed to determine the state of charge and / or the state of aging and / or the

Determine the energy content of the battery cell.

As a result, both the detection of the most important measured variables of the

Battery cell as well as their evaluation, such as the calculation of the state of charge (SoC) of the battery cell or the

State of health (SoH) of the battery cell directly inside the battery cell. Both the acquisition of the measured variables of the battery cell and their evaluation must then no longer be realized by external components.

The electronic circuit preferably has a microcontroller and at least one data storage element connected to the microcontroller. Microcontrollers are very well adaptable in terms of performance and features to the particular application intended for them. Furthermore, they are very inexpensive compared to other computing systems.

In a preferred development, the microcontroller with the

Communication interface connected and adapted to a stored in the at least one connected to the microcontroller data storage element record an external control device on the

Communication interface to transmit. Thus, the battery cell as stand alone energy storage as well as in an energy storage association are used.

In a preferred development of this embodiment is the

Microcontroller connected to the at least one sensor and includes the

Record information about at least one detected by the at least one sensor measured variable of the battery cell and / or information about battery cell characteristics for a battery cell characterization. This allows, among other things, that the battery cell independently, for example in a higher-level battery management system, with their

Battery cell characteristics identified.

Preferably, the battery cell has at least one pressure compensation element, which can be controlled by the electronic circuit. If an overpressure or underpressure forms within the battery cell, it can be detected independently by the battery cell and also be compensated independently.

In a preferred embodiment, the electronic circuit is designed as a module which forms the battery cell housing cover. As a result, the available installation space can be expanded within the battery cell, since the electronic circuit within the battery cell takes up very little space.

Preferably, the electronic circuit is designed as a mold module or as a circuit on a substrate or as a circuit on a printed circuit board. At a

Moldmodule is a cladding body that securely and robustly encloses the electronic circuit.

Preferably, the at least one sensor is located on the inside of the battery cell housing cover and the at least one sensor is electrically connected via a gas-tight through-connection with an evaluation electronics

connected electronic circuit. As a result, the sensor is spatially separated from the evaluation electronics in an advantageous manner. Preferably, the evaluation of the electronic circuit is also realized in the microcontroller. Preferably, the electronic circuit is designed as an integrated circuit. As a result, the space available within the battery cell can also be expanded.

Preferably, the battery cell is designed as a lithium-ion battery cell.

Advantageous developments of the invention are specified in the subclaims and described in the description.

drawings

Embodiments of the invention will be explained in more detail with reference to the drawings and the description below. Show it:

1 shows an embodiment of a battery cell according to the invention with a possible integration concept of an electronic circuit within the battery cell according to the invention, and

Figure 2 shows an embodiment of an electronic circuit of a battery cell according to the invention.

Embodiments of the invention

FIG. 1 shows an exemplary embodiment of a battery cell 40 according to the invention with a possible integration concept of an electronic circuit 10 within the battery cell 40 according to the invention. The

Battery cell 40 according to the invention comprises a battery cell housing 30, a battery cell housing cover 28 and two battery cell terminals 1 1 and 12, which are guided through the battery cell housing cover 28 in this embodiment. About the battery cell terminals 11 and 12 is the

Battery cell 40 according to the invention with a battery system, but also with, for example, a consumer connectable. Furthermore, the

Battery cell 40 according to the invention a positive electrode 13 and a negative electrode 14, between which a separator, not shown, is arranged in this embodiment. Both the positive electrode 13 and the negative electrode 14 are inside the battery cell case 30 arranged. In each case one current path within the battery cell housing 30, both the positive electrode 13 and the negative electrode 14 are each connected to a battery cell terminal 1 1, 12. In this

In the exemplary embodiment, the positive electrode 13 is connected via a current path to the battery cell terminal 1 1 of the battery cell 40, while the negative electrode 13 is connected via a current path

Electrode 14 via a different current path with the remaining of the

Battery cell terminals 12 of the battery cell 40 is connected. Furthermore, the battery cell 40 according to the invention has an electronic circuit 10, which in this exemplary embodiment is arranged purely by way of example on the inside of the battery cell housing cover 28, inside the battery cell 40.

In this embodiment, the current path between the positive electrode 13 and the battery cell terminal 11, a switching means (not shown), which is controlled by the electronic circuit 10. In other words, in this embodiment, the electrical connection between the positive electrode 13 and the

Battery cell terminal 11 are interrupted by the opening of a arranged within this electrical connection switching means, wherein the switching means is controlled by the electronic circuit 10. In this case, both the position and the realization of only one switching means in this embodiment is selected purely by way of example. A switching means can also be arranged in a battery cell 40 according to the invention alternatively or additionally in the current path between the negative electrode 14 and the battery cell terminal 12. Also, multiple switching means within one

Arranged current paths and be controlled by the electronic circuit 10. The position of the electronic circuit 10 is in this

Example selected exemplary.

For the purpose of driving the switching means, the electronic circuit 10 purely by way of example, a drive circuit or

Driver circuits, but also other units, such as

Have arithmetic units. In this embodiment, the electronic circuit 10 is designed purely as an example as an integrated circuit. The electronic circuit 10 can also be designed differently, for example as a module, in particular as a mold module, which the

Battery cell housing cover 28 of the battery cell 40 according to the invention forms. In such an embodiment, the battery cell housing 30 of the battery cell 40 is thus closed by the battery cell housing cover 28 forming electronic circuit 10. However, the electronic circuit 10 can also form the battery cell housing cover 28 and still be designed differently, for example, be realized on a substrate. For example, the components and units of the electronic circuit 10 can be highly integrated up to a silicon area. Also, the electronic circuit 10 can be realized on a ceramic substrate or on a printed circuit board. In this case, for example, provide printed circuit boards on aluminum, stainless steel or plastic base, since this to form a robust

Battery cell case cover 28 contribute. Furthermore, the electronic circuit can also be integrated in a metal substrate or realized on another base support for electronic components. The electronic circuit 10 can also in this way, that is, choosing the same carrier medium or the same materials and

Integration be performed without forming the battery cell case cover 28 of the battery cell 40. However, the electronic circuit 10 can also be arranged and embodied using completely different materials at a completely different position within a battery cell 40 according to the invention.

FIG. 2 shows an exemplary embodiment of an electronic circuit 10 of a battery cell 40 according to the invention. In this exemplary embodiment, the electronic circuit 10 has a communication interface 21 via which the battery cell 40 can be connected to a bus system. Such

In this case, the bus system can be embodied purely by way of example as a CAN bus, as a LIN bus, as a FlexRay bus, as an Ethernet or else as another bus system. In this case, the components of the communication interface 21 are isolated from the rest of the electronic circuit 10. By way of example only, the

Communication interface 21 in this embodiment, a transceiver

Circuit 22, which has two terminals through which the

Communication interface 21 and thus the electronic circuit 10 with the bus lines of a bus system, in this embodiment, with the bus lines of a CAN bus system, is connectable. Furthermore, the

Communication interface 21 in this embodiment an error

Evaluation unit 23, via which a received error signal evaluated can be. In this embodiment, the

Communication interface 21 of the electronic circuit 10 further comprises a running as a boost converter converter unit 24, via which the electronic circuit 10 with the positive and negative electrode (not shown) of the battery cell 40 is connectable and can be fed. The embodiment of the electronic circuit 10 with a communication interface 21 is optional for a battery cell 40 according to the invention. Battery cells 40 according to the invention can also be designed without or with a different design

Communication interface 21, for example, with a wireless

Communication interface 21 executed.

In this exemplary embodiment, the electronic circuit 10 has a microcontroller 3 and a data storage element (not shown) connected to the microcontroller 3. Via a digital isolator 4, the microcontroller 3 in this embodiment with the transceiver circuit

22 and connected to the error evaluation unit 23 of the communication interface 21. Further, in this embodiment, the microcontroller 3 is configured to have one connected to the microcontroller 3

Data record stored data record an external control device via the communication interface 21 to transmit.

In the exemplary embodiment of FIG. 2, the electronic circuit 10 furthermore has four sensors 2 for detecting 4 measured quantities of the battery cell 40 according to the invention. The measured variables are the

Battery cell voltage, the battery cell current, the battery cell pressure and the

Battery cell temperature. The four sensors 2 are connected to a computing unit which is designed to determine the state of charge, the state of aging as well as the energy content of the selected variable from selected ones of the four measured variables

Battery cell 40 to calculate. In this embodiment, the

Arithmetic unit within the microcontroller 3 realized or formed by this. In other words, in this exemplary embodiment, the microcontroller 3 is connected to the four sensors 2 and configured to measure the measured variables detected by the sensors 2

Battery cell 40 to calculate the state of charge (SoC), the state of health (SoH) and the energy content of the battery cell 40. The detected measured variables as well as those generated by the microcontroller 3 calculated quantities (SoC, SoH, energy content) can be stored as a data record in the data storage element. Furthermore, in the

Data storage element records containing information about the battery cell characteristics for a battery cell characterization. If the battery cell 40 is thus connected, for example, to a higher-level control unit, the battery cell 40 can autonomously identify with it or the battery cell 40 can be characterized. This is possible since the microcontroller 3 in this exemplary embodiment is designed to store data records stored in the data storage element via the

Communication interface 21 to external control devices, for example, to a central battery management unit to transmit. A record can therefore a higher-level control unit, for example, for tax and

Control functions are provided via the communication interface 21.

The battery cell 40 according to the invention further comprises, in this embodiment, a pressure compensation element (not shown) which can be activated by the electronic circuit 10. If in the battery cell 40 a Überbeziehungsweise a negative pressure before, the same can over the

Pressure compensation element can be compensated for by control by the electronic circuit 10. In this embodiment, two of the four sensors 2 are located on the inside of the battery cell housing cover 28. These two sensors 2 are electrically connected via a gas-tight via with an evaluation of the electronic circuit 10, which in this embodiment also in the microcontroller 3 of

electronic circuit 10 is realized.

Furthermore, the electronic circuit 10 has a plurality of switching means, which are designed in this embodiment as a circuit breaker and can be controlled by the electronic circuit 10. Also, the switching means 1 in the current path between, in this embodiment, the positive electrode 13 and the battery cell terminal 11 can be controlled via a designed as a bridge driver circuit control electronics 6 of the electronic circuit 10. In this embodiment, the electronic circuit 10 further comprises a functional block, which performs the function of switching on and off the

Battery cell and the timing of the electronic circuit 10 provides. Of Further, the electronic circuit 10 in this embodiment, purely by way of example, a plurality of other logical units and

electronic components, such as logic gates 19, a power supply block 33 for feeding the other units and

Circuit parts of the electronic circuit 10, gate drivers as well

Components for signal conditioning. This multiplicity of further logical units as well as electronic components is chosen purely by way of example, only optional for the electronic circuit 10 of a battery cell 40 according to the invention, and will not be described further here.

In the exemplary embodiment of the electronic circuit 10 shown in FIG. 2, all units and components, such as, for example, the microcontroller 3, the sensors 2, the communication interface 21, or the

Power supply block 33 for a battery cell 40 according to the invention optional. Thus, it is also possible to realize electronic circuits 10 within battery cells 40 according to the invention without these units and components. If such units or components are realized in the electronic circuit 10 of a battery cell 40 according to the invention, they can also be designed and arranged differently than in the exemplary embodiment of FIG. For example, only one sensor 2 or more than four sensors 2 can be realized in the electronic circuit 10 of a battery cell 40 according to the invention. Also, other than the measurement quantities mentioned here can be detected by these sensors 2. Also, for example, the state of charge or the state of aging can be determined by a separate computing unit and not by the microcontroller 3. Furthermore, in the realization of a pressure compensation element, the same also does not have to be replaced by a

Microcontroller 3 are controlled. Such a pressure compensation element can for example also be controlled by a separate unit.

Claims

claims

1. Battery cell (40) comprising

a battery cell housing (30),

a battery cell housing cover (28),

- Two battery cell terminals (1 1, 12), via which the battery cell (40) is connectable to a battery system,

a positive electrode (13) and a negative electrode (14), which are arranged inside the battery cell housing (30) and connected in each case via a current path within the battery cell housing (30) to a respective battery cell terminal (11, 12),

an electronic circuit (10),

characterized in that

at least one of the current paths between the positive electrode (13) or the negative electrode (14) and in each case a battery cell terminal (11, 12) at least one switching means (1) which is controlled by the electronic circuit (10).

2. Battery cell (40) according to claim 1, wherein the electronic circuit (10) has a communication interface (21) via which the

Battery cell (40) is connectable to a bus system.

3. Battery cell (40) according to one of the preceding claims, wherein the electronic circuit (10) has at least one sensor (2) for detecting at least one measured variable of the battery cell (40).

4. Battery cell (40) according to claim 3, wherein the at least one sensor (2) is adapted to the battery cell voltage and / or the

Battery cell current and / or the battery cell pressure and / or the

To detect battery cell temperature.

5. battery cell (40) according to claim 3 or 4, wherein the electronic

Circuit (10) has at least one computing unit, which is designed to determine the state of charge and / or the aging state and / or the energy content of the battery cell (40).

6. battery cell (40) according to any one of the preceding claims, wherein the electronic circuit (10) has a microcontroller (3) and at least one connected to the microcontroller (3) data storage element.

7. battery cell (40) according to claim 2 and 6, wherein the microcontroller (3) connected to the communication interface (21) and adapted to a stored in the at least one with the microcontroller (3) data storage element record an external control device on the Communication interface (21) to submit.

8. battery cell (40) according to claim 3 and 7, wherein the microcontroller (3) with the at least one sensor (2) is connected and wherein the record information about at least one by the at least one sensor (2) detected measurement of the battery cell (40 ) and / or information about battery cell characteristics for battery cell characterization.

9. Battery cell (40) according to one of the preceding claims, wherein the battery cell (40) has at least one pressure compensation element, which by the electronic circuit (10) can be controlled.

10. battery cell (40) according to any one of the preceding claims, wherein the electronic circuit (10) is designed as a module which the

Battery cell housing cover (28) forms.

1 1. Battery cell (40) according to claim 10, wherein the electronic circuit (40) is designed as a mold module or as a circuit on a substrate or as a circuit on a printed circuit board.

12. battery cell (40) according to claim 3 or 4, wherein the at least one sensor (2) on the inside of the battery cell housing cover (28) and electrically via a gas-tight via with a

Evaluation of the electronic circuit (10) is connected.