DE102019216222A1 - Method for setting a variable battery string voltage - Google Patents

Abstract

Method for setting a variable battery string voltage of a battery string which comprises a plurality of battery cells which can be electrically connected and bridged to the battery string by activation.

Description

The invention is based on a method for setting a variable battery string voltage of a battery string, which comprises a plurality of battery cells that can be electrically connected and bridged to the battery string by activation, a battery with at least one battery string, a computer program and use of a battery according to the preamble of the independent claims .

State of the art

The operating voltage of batteries decreases as the state of charge (SOC) decreases. This has a negative effect on the maximum available power of a drive system. Conversely, the battery voltage increases as the state of charge increases, which reduces the recuperation power in the case of an electric drive.

According to the current state of the art, this problem can be addressed with the aid of DC voltage converters or an adapted inverter.

However, additional DC voltage converters are expensive and require additional installation space, for example in an electric vehicle.

The adapted inverter has a reduced efficiency and causes additional costs. Therefore, according to the state of the art, the variable drive and recuperation power is accepted over a discharge range of the batteries with limitations at minimum and / or maximum electrical voltage.

The document US 2004/0112320 discloses a starter generator that is mechanically connected to an internal combustion engine, a bidirectional AC / DC converter that can be connected to an accumulator by means of a first switch and to a double-layer capacitor via a second switch.

The document US 2012/0306439 discloses a vehicle comprising a power receiving terminal, a charger and a non-contact power receiving unit. The power receiving port is configured to be electrically connectable to an AC power supply. The charger is configured to convert alternating electric current fed in from the power receiving terminal into a predetermined direct voltage. The non-contact power receiving unit is configured to be magnetically coupled to a power transmission unit of an AC power supply to receive electrical power from the AC power supply in a non-contact manner. The non-contact power receiving unit is connected to a power conversion circuit of the charger.

It is the object of the present invention to further improve the state of the art. This object is achieved by the features of the independent claims.

Disclosure of the invention

Advantages of the invention

1. a. Erfassen einer Batteriestrangspannungsgröße, welche eine Batteriestrangspannung repräsentiert;
2. b. Vergleichen der Batteriestrangspannungsgröße mit einer Soll-Batteriestrangspannungsgröße, die eine vorgegebene Soll-Batteriestrangspannung repräsentiert;
3. c. Erzeugen von ersten Signalen zum elektrischen Zuschalten von Batteriezellen und/oder Erzeugen von zweiten Signalen zum Überbrücken von Batteriezellen basierend auf einem Ergebnis des Vergleichs;

The procedure according to the invention with the characterizing features of the independent claims has the advantage that the method for setting a variable battery voltage has the following steps:

1. a. Detecting a battery string voltage magnitude that represents a battery string voltage;
2. b. Comparing the battery string voltage magnitude with a desired battery string voltage magnitude representing a predetermined desired battery string voltage;
3. c. Generating first signals for electrically connecting battery cells and / or generating second signals for bridging battery cells based on a result of the comparison;

As a result, the battery voltage can be increased, for example when the state of charge (SOC) of the battery or battery cells falls, in order, for example, to call up a higher drive power from an electrical machine or to keep it constant.

Furthermore, the battery voltage can be reduced, for example when the battery or battery cells are at a higher state of charge, in order to increase a recuperation power or to keep it constant.

Advantageously, the battery voltage can be reduced to such an extent that a high level of recuperation can take place, for example up to almost a standstill of an electrically drivable vehicle comprising the battery according to the invention, when an electric machine only outputs very low terminal voltages in generator mode. Permissible voltage limits are adhered to and an energy transfer is efficiently implemented. Switching losses that occur practically do not occur and are negligible.

Further advantageous embodiments are the subject of the subclaims.

• d. Erfassen von Batteriezellspannungsgrößen, welche Batteriezellspannungen der Batteriezellen repräsentieren;
• e. Vergleichen der Batteriezellspannungsgrößen mit Soll-Batteriezellspannungsgrößen, die vorgegebene Soll-Batteriezellspannungen repräsentieren;
• f. Auswählen von Batteriezellen zum elektrischen Zuschalten von Batteriezellen und/oder zum Überbrücken von Batteriezellen basierend auf einem Ergebnis des Vergleichs.

The method for setting a variable battery string voltage advantageously further comprises the following steps:

• d. Detecting battery cell voltage variables which represent battery cell voltages of the battery cells;
• e. Comparing the battery cell voltage quantities with target battery cell voltage quantities which represent predetermined target battery cell voltages;
• f. selecting battery cells for electrically connecting battery cells and / or for bridging battery cells based on a result of the comparison.

This ensures that the states of charge between battery cells of a battery string are balanced.

A battery according to the invention with at least one battery string, which comprises a plurality of battery cells that can be electrically connected and bridged to the battery string, is characterized by control means that are configured to electrically connect battery cells to the battery string by means of first control signals and / or by means of second control signals to electrically connect battery cells to the battery string Bridging battery string and thus variably setting a battery string voltage.

Instead of adapting the electrical voltages to an operating mode by means of DC voltage converters, the battery cells that are in operation are varied according to the invention. As a result, a DC voltage converter can advantageously be saved, as a result of which conversion losses are reduced and the energy transfer takes place more efficiently.

Furthermore, an existing inverter can be optimized for a limited working range and permissible voltage limits can be used completely in different operating modes of an electrically drivable vehicle. This leads to a powerful and cost-effective solution compared to the prior art.

Furthermore, a higher CO2 saving is achieved with electrically driven vehicles, for example hybrid vehicles or electric vehicles, since more energy can be recuperated per unit of time. When the state of charge is low, a small current can be used by increasing the voltage in boost mode in order to achieve the target output. This further reduces conversion losses.

Furthermore, the battery comprises a voltage measuring means connected to the control means, which is designed to detect a battery string voltage and to output a battery string voltage variable, which represents the battery string voltage, to the control means.

The battery cells each have at least two semiconductor switches, in particular field effect transistors.

The battery comprises at least one means, in particular an electronic battery management control device, which is set up to carry out the steps of the method according to the invention.

The invention advantageously comprises a computer program comprising commands which cause the battery according to the invention to carry out the method steps and a machine-readable storage medium on which the computer program is stored.

The battery according to the invention is advantageously used in electrical energy storage systems for electric vehicles, hybrid vehicles, plug-in hybrid vehicles, aircraft, pedelecs or e-bikes, for portable devices for telecommunication or data processing, for electric hand tools or kitchen machines, and in stationary storage systems for storage in particular regeneratively generated electrical energy.

Figure list

Exemplary embodiments of the invention are shown in the drawing and explained in more detail in the description below.

• 1 eine schematische Darstellung eines erfindungsgemäßen Batteriesystems mit einer ersten eingestellten Batteriestrangspannung; und
• 2 eine schematische Darstellung eines erfindungsgemäßen Batteriesystems mit einer zweiten eingestellten Batteriestrangspannung; und
• 3 eine schematische Darstellung eines erfindungsgemäßen Batteriesystems mit einer dritten eingestellten Batteriestrangspannung.

Show it:

• 1 a schematic representation of a battery system according to the invention with a first set battery string voltage; and
• 2 a schematic representation of a battery system according to the invention with a second set battery string voltage; and
• 3 a schematic representation of a battery system according to the invention with a third set battery string voltage.

Detailed description of the exemplary embodiments

The same reference symbols denote the same device components in all figures.

1 shows a schematic representation of a battery system according to the invention with a first set battery string voltage between connection poles 103 (1) , 103 (2) a battery string 100 . The battery string 100 includes a variety of electrochemical battery cells 101 as well as switches 102 for electrically connecting and / or bridging the battery cells 101 in the battery string 100 . The switches are operated by means of control cables 104 controlled by control means.

In the illustration shown is a switch 102 (1a) open and a switch 102 (1b) closed, making the battery cell 101 (1) is bridged. Next is a switch 102 (2a) closed and a switch 102 (2b) opened, causing the battery cell 101 (2) the battery string 100 is switched on electrically. The remaining battery cells 101 (3) to 101 (n) are also part of the battery string 100 switched on electrically.

As a result, the battery string voltage is lowered, for example when the state of charge is higher, in order to increase a recuperation power or to keep it constant.

2 shows a schematic representation of a battery system according to the invention with a second battery string voltage between connection poles 103 (1) , 103 (2) a battery string 200 .

In the illustration shown, all switches are 102 (a) closed and all switches 102 (b) opened, causing the battery cells 101 the battery string 100 are switched on electrically.

As a result, the battery string voltage is increased, for example when the state of charge is low, in order, for example, to be able to call up a higher drive power from an electrical machine or to keep it constant.

3 shows a schematic representation of a battery system according to the invention with a third battery string voltage between connection poles 103 (1) , 103 (2) a battery string 300 .

In the illustration shown are the switches 102 (1a) , 102 (2a) , 102 (3a) open and the switch 102 (1b) , 102 (2b) , 102 (3b) closed, making the battery cells 101 (1) , 101 (2) , 101 (3) are bridged. Next are the switches 102 (4a) to 102 (na) closed and the switch 102 (4b) to 102 (nb) opened, causing the battery cell 101 (4) to 101 (n) the battery string 100 is switched on electrically.

This advantageously reduces the battery voltage to such an extent that a high level of recuperation can take place, for example almost to a standstill of an electrically drivable vehicle comprising the battery according to the invention, when an electric machine only outputs very low terminal voltages in generator mode.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was 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.

Patent literature cited

• US 2004/0112320 [0006]
• US 2012/0306439 [0007]

Claims (9)

A method for setting a variable battery string voltage of a battery string (100, 200, 300) which comprises a plurality of battery cells (101) that can be electrically connected and bridged to the battery string (100, 200, 300), comprising the following steps: a. Detecting a battery string voltage magnitude that represents a battery string voltage; b. Comparing the battery string voltage magnitude with a desired battery string voltage magnitude representing a predetermined desired battery string voltage; c. Generating first signals for electrically connecting battery cells (101) and / or generating second signals for bridging battery cells (101) based on a result of the comparison; Method for setting a variable battery string voltage of a battery string (100, 200, 300) according to FIG Claim 1 further comprising the steps of: d. Detecting battery cell voltage variables which represent battery cell voltages of the battery cells (101); e. Comparing the battery cell voltage quantities with target battery cell voltage quantities which represent predetermined target battery cell voltages; f. selecting battery cells (100) for electrically connecting battery cells and / or for bridging battery cells based on a result of the comparison. Battery with at least one battery string (100, 200, 300) which comprises a plurality of battery cells (101) which can be electrically connected and bridged by being controlled to the battery string (100, 200, 300), characterized by control means which are set up by means of first control signals Electrically connecting battery cells (101) to the battery string (100, 200, 300) and / or bridging battery cells (101) of the battery string (100, 200, 300) by means of second control signals and thus variably setting a battery string voltage. Battery after Claim 3 , further comprising a voltage measuring means connected to the control means, which is designed to detect a battery string voltage and to output a battery string voltage variable, which represents the battery string voltage, to the control means. Battery after one of the Claims 3 to 4th , characterized in that the battery cells (101) each have at least two semiconductor switches (102), in particular field effect transistors. Battery after one of the Claims 3 to 5 , further comprising at least one means, in particular an electronic battery management control device, which is set up, the steps of the method according to one of the Claims 1 to 2 perform. Computer program comprising instructions that cause the battery to run out Claim 6 the process steps according to one of the Claims 1 to 2 executes. Machine-readable storage medium on which the computer program is based Claim 7 is stored. Using a battery after one of the Claims 3 to 6th in electrical energy storage systems for electric vehicles, hybrid vehicles, plug-in hybrid vehicles, aircraft, pedelecs or e-bikes, for portable devices for telecommunications or data processing, for electric hand tools or kitchen appliances, as well as in stationary storage systems for storing electricity generated from renewable sources.

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