DE102018111533B3 - System and method for automatic battery diagnosis - Google Patents

Abstract

A diagnostic system for a HV battery of an electric vehicle, wherein the diagnostic system comprises a predetermined connector directly connected by an electrical cable to the HV battery, and wherein the diagnostic system comprises a portable diagnostic device having its own power supply, one to the predetermined one Socket has matching connector, and which is designed to perform after connecting the connector to the predetermined connector socket an automatic diagnosis of HV battery and a respective result of this diagnosis, in particular at a risk of contact, by a respective, the respective result characterizing signal ( 130). Furthermore, a method carrying out the automatic diagnosis is claimed.

Description

The present invention relates to a diagnostic system for automatic diagnosis of a high-voltage battery, abbreviated HV battery. A portable diagnostic device is for this purpose connected to a coupled with the HV battery connector. Furthermore, a method carrying out the automatic diagnosis is claimed.

Portable diagnostic devices for determining a vehicle state or for reading a fault memory, which can also be connected by the layman to an on-board electronics or their interface, are now available regardless of vehicle type. However, the state of the art for such diagnostic devices has so far been directed to an electrical power supply of the vehicle with a common vehicle battery, commonly known as a lead-acid battery.

The publication US 2009/0299539 A1 describes, for example, a power supply balancing system of a vehicle communication interface which regulates a power supply of the vehicle communication interface and its connected vehicle diagnostic devices. The power supply can be done from a separate energy storage, from a connection to the electrical power supply of the vehicle, or even from another externally connected device. The energy balance system ensures that none of the respective energy sources is overloaded.

It is also known to send from a diagnostic device permanently connected to the vehicle battery via a transmission device status data of the vehicle battery to a central device. This is how the document describes US 2016/0077159 A1 a permanently installed in the vehicle monitor for the vehicle battery. Sensor data about a battery voltage or a battery temperature is sent from the monitor to an external diagnostic device, which can reflect a current battery condition and a battery life.

In the event of an interruption of an in-vehicle power supply, for example due to damage to an interface in the event of an accident, an external diagnostic device must resort to its own energy store. The US-American publication US 2008/0086246 A1 discloses for this purpose a portable electric power source, which is designed to supply electrical circuits of a vehicle with sufficient power, so that a diagnosis of the circuits can be performed. To the power source, a sealed against contamination diagnostic device is connected. Explicitly it concerns a vehicle battery independent diagnosis possibility of the vehicle circuits.

Electric vehicles have as energy storage a high-voltage battery, hereinafter referred to as HV battery. An electrical classification is currently possible only with special meters accessible to the skilled person. Furthermore, no universally valid standard has been created so far. With the ever-advancing market introduction of electric vehicles with HV batteries, there is a need, the layman and, above all, firefighters and rescue services forces to provide a quick diagnosis of the condition of the HV battery in the hand.

DE 10 2009 027 177 A1 describes a warning system for battery systems with at least one sensor to be connected to a battery.

DE 10 2011 122 420 A1 describes a method for determining a lack of voltage in a vehicle with at least two control units, in which the absence of voltage is only output when the control units involved output a voltage value below a predetermined threshold.

EP 2 316 086 B1 describes a portable diagnostic system for a vehicle.

The following object is achieved by the subject matter of the independent claims.

Against this background, it is an object of the present invention to provide a vendor-independent, unified diagnostic system for a HV battery. The diagnostic system according to the invention is intended to ensure a rapid battery diagnosis even after an accident by which possibly the vehicle-internal power supply has been interrupted. Workshop personnel should be able to operate the diagnostic system in the same way as helpers at an accident site or the layman. Further, it is an object of the present invention to provide a corresponding method performing automatic battery diagnosis.

To achieve the above object, a diagnostic system for a HV battery of an electric vehicle is proposed in which the diagnostic system comprises a predetermined connector directly connected by an electric cable to the HV battery, and wherein the diagnostic system comprises a portable diagnostic device which has its own power supply, which one to the predetermined Socket has matching connector, and which is designed to perform after connecting the connector to the predetermined connector socket an automatic diagnosis of HV battery and a respective result of this diagnosis, in particular at a risk of contact, represent by a respective, the respective result characterizing signal ,

The automatic diagnosis is similar to known battery diagnostic devices, which are connected by default to an OBD interface, abbreviated for on-board diagnostic interface, performed. However, the diagnostic system according to the invention is designed and adapted to the conditions of a high-voltage system.

In addition to a generally existing manufacturer-specific connection of the HV battery for a connection to an on-board electronics of an electric vehicle, the diagnostic system according to the invention now sees the separate, connected to the HV battery electrical cable, which is connected to a positive pole and a negative terminal of the HV battery , in front. In connection with the predetermined connection socket and the portable diagnostic device that can be connected to it, a direct and also for a layman producible access to the HV battery is created.

In an embodiment of the diagnostic system according to the invention, the HV battery is externally accessible, d. H. the HV battery is not installed in an electric vehicle, wherein the diagnostic system according to the invention, for example. When stored or in a separate delivery of the HV battery ensures a fast diagnosis of a condition of the HV battery. This is especially important for a logistics company.

In a further embodiment of the diagnostic system according to the invention, the HV battery is installed in an electric vehicle. The connected via its own electrical cable to the HV battery connector ensures that there is a separate access to the HV battery, especially since after an accident in-vehicle interfaces that have a connection to the HV battery, damaged or interrupted can. In the same way, the own power supply ensures that the portable diagnostic device does not have to rely on the power supply from the HV battery or other built-in electric vehicle energy storage whose connection can be interrupted to an accessible interface, especially after an accident.

In a further embodiment of the diagnostic system according to the invention, the predetermined connection socket is determined by a standard cross-vehicle manufacturer. This can be done, for example, by introducing a standard, whereby a world standard socket is present on each HV battery.

In a further embodiment of the diagnostic system according to the invention, the portable diagnostic device is configured to reproduce the respective signal optically and / or acoustically and / or haptically via a respective output unit. In particular, a hazard can be indicated by a warning sound. In continued further embodiment of the diagnostic system according to the invention, the optical signal by means of a traffic light system of colors green, yellow and red, according to a classification of the states in "normal", "warning" and "danger". This also makes it easy for the layman to easily assess the condition of the HV battery. It is conceivable, in a classification of the state of the HV battery as dangerous to activate an additionally provided emergency call system.

In a further embodiment of the diagnostic system according to the invention, the portable diagnostic device against environmental influences, such as. Moisture or dust, sealed and ergonomic, especially compact and handy designed. For example. The portable diagnostic device may be formed as a tablet or in the form of a suitcase.

In a further embodiment of the diagnostic system according to the invention, the portable diagnostic device has a plurality of interfaces, for. B. at least one USB interface, which allow a connection to a power supply and / or further diagnostic equipment and / or output devices. For example. The portable diagnostic device is recharged via the respective interface, for example by means of a charger, or connected to a printer to print out measured values of the HV battery, or it is, for example, stored externally on an SD card, for example in the form of a Classification protocol for documentation purposes. It is also conceivable that by means of the access of the portable diagnostic device to the HV battery, further diagnostic devices connected to the portable diagnostic device gain access to the HV battery, the portable diagnostic device serving as an interface for the further diagnostic devices in this sense. Furthermore, a radio interface can also be provided, for example in the form of Bluetooth, NFC, UMTS or LTE, which can be used, for example, as an emergency call function for workshops and logistics.

In a further embodiment of the diagnostic system according to the invention, the portable diagnostic device additionally comprises operating elements and a display, which in particular as a touch-sensitive surface is formed, about which by means of stepwise interaction with a user specific information regarding the HV battery are made possible. This specific information may include, for example, a manufacturer of the electric vehicle or the HV battery, a type designation of the electric vehicle, or a vehicle identification number (VIN). For example. is stored in the portable diagnostic device a table with error possibilities and / or limits for voltages and / or temperatures to existing existing HV batteries. By means of the specific information, more detailed diagnoses, for example regarding the service life, are possible based on the table, beyond a mere hazard analysis. Also, for example, a so-called developer mode is conceivable, which includes detailed information such as individual cell voltages, individual cell temperatures, fault memory or the SOC, abbreviated state of charge. It is also conceivable that the connection of the portable diagnostic device is maintained for a long time and so a long-term monitoring of cell voltage and cell temperature of the HV battery is possible.

Furthermore, a method for automatic diagnosis of a HV battery of an electric vehicle is claimed in which a predetermined by a standard connector socket is connected by means of an electric cable with the HV battery, in which a portable diagnostic device, which has its own power supply by a is connected to the predetermined connector mating connector with the predetermined connector of the HV battery, wherein the diagnosis device after connecting an automatic diagnosis of HV battery is performed and a respective result of this diagnosis, in particular at a risk of contact, by a respective, the respective result characterizing signal is displayed.

• Schritt 1: Anschluss des tragbaren Diagnosegerätes an die HV-Batterie oder ein die HV-Batterie beherbergendes Elektrofahrzeug und damit verbundener Einschaltvorgang des Diagnosegerätes.
• Schritt 2: Mit dem Einschaltvorgang erfolgt eine automatische Diagnose, insbesondere ob eine Gefährdung durch die HV-Batterie vorliegt, und eine vereinfachte Anzeige eines Ergebnisses der Diagnose mittels Leuchtdioden gemäß einem Ampelsystem. Optional können nun von einem Benutzer spezifische Angaben bzgl. Fahrzeug- und/oder Batterietyp eingegeben werden.
• Schritt 3: Optional können alle Messwerte, wie bspw. Zellspannung und/oder Zelltemperatur, angezeigt werden und weitergehende Klassifizierungen des Zustandes der HV-Batterie erfolgen.

In an embodiment of the method according to the invention, the following steps are formed for a classification of a diagnosed state of the HV battery:

• Step 1: Connect the portable diagnostic device to the HV battery or an electric vehicle housing the HV battery and the power-on of the diagnostic device.
• Step 2: With the switch-on is an automatic diagnosis, in particular whether there is a threat from the HV battery, and a simplified display of a result of the diagnosis by means of light emitting diodes according to a traffic light system. Optionally, user-specific information regarding vehicle and / or battery type can now be entered.
• Step 3: Optionally, all measured values, such as, for example, cell voltage and / or cell temperature, can be displayed and further classifications of the state of the HV battery can be carried out.

Further advantages and embodiments of the invention will become apparent from the description and the accompanying drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination indicated, but also in other combinations or in isolation, without departing from the scope of the present invention.

1 shows a possible control panel of an embodiment of a portable diagnostic device provided according to the invention.

In 1 becomes a possible control panel 100 a portable diagnostic device shown. On a flat side 102 are display elements 110 . 112 . 114 . 130 . 132 . 134 and controls 104 . 106 . 108 including labels 116 . 118 . 120 . 122 . 124 . 126 . 128 arranged. Alternatively or additionally, of course, a touch-sensitive screen (touch screen) may be provided. With a connection of the portable diagnostic device to a connector to the HV battery is a power-on of the diagnostic device and connected to an automatic diagnosis of the HV battery. The connection and an associated initialization of the switch-on process is lit by lighting up a label 116 "Ready for operation" designated light field 114 displayed. An existing connection to the HV battery is made by lighting one with the label 118 "Connection" designated light box 112 displayed. A result of this diagnosis is in a round light field 130 shown by color illumination. A state "normal" is represented by the color "green", a state "warning" by the color "yellow", and a state "danger" by the color "red". Accordingly, the labels 124 . 126 and 128 executed: label 124 is "green - normal", caption 126 is "yellow - warning" and caption 128 is "red - danger". This area of the control panel 100 is with the caption 122 Overwritten "HV battery condition". In addition to the automatic diagnosis of the state of the HV battery can be displayed via a display 132 . 134 and controls 104 . 106 . 108 further classifications of the state of the HV battery are performed. Through step-by-step interaction with a user, specific information can be made about the HV battery. So can in a display topic line 134 various topics, such as vehicle selection or manufacturer selection, are displayed. With the controls 104 . 106 . 108 these are then leafed through or confirmed. This is how the control element works 104 to scroll down on a list of topics, and can accordingly bear the label "down". In contrast, the operating element serves 108 to scroll up the list and can use the label "up". If the user wants to select a topic, he presses the control element 106 , which can also bear the name "Enter". After selecting the topic, the display will show 132 another specification, for example the vehicle selection or the manufacturer, about the same controls 104 . 106 . 108 performed. In the display panel also graphs over a temperature history of a cell temperature can be displayed. If the display of a fault memory of the high-voltage battery is selected as the topic, this will be indicated by a light with the caption 120 "Error memory" designated light field 110 displayed. Read values will then be shown on the display 132 shown. It is also conceivable the display 132 . 134 touch sensitive perform.

Claims (10)

A diagnostic system for a HV battery of an electric vehicle, in which in addition to a connection of the HV battery for connection to an on-board electronics provided by a separate electrical cable to the HV battery directly connected, predetermined connector socket is provided, and wherein the diagnostic system is a portable Diagnostic device comprises, which has its own power supply, which has a matching connector to the predetermined connector, and which is designed to perform after connecting the connector to the predetermined connector an automatic diagnosis of the HV battery and a respective result of this diagnosis, especially at a risk of contact, represented by a respective, the respective result characterizing signal (130), wherein the electrical cable is connected to a positive pole and to a negative terminal of the HV battery. Diagnostic system after Claim 1 , which is designed to be connected to the HV battery when the HV battery is accessible from outside the vehicle. Diagnostic system after Claim 1 , which is designed to be connected to the HV battery when the HV battery is installed in an electric vehicle. Diagnostic system according to one of the preceding claims, wherein the predetermined connection socket is determined by a standard cross-vehicle manufacturer. Diagnostic system according to one of the preceding claims, wherein the portable diagnostic device is configured to reproduce the respective signal optically (130, 132, 134) and / or acoustically and / or haptically via a respective output unit. Diagnostic system after Claim 5 in which the optical signal (130) is effected by means of a traffic light system of the colors green, yellow and red. Diagnostic system according to one of the preceding claims, wherein the portable diagnostic device is sealed against environmental influences and ergonomically designed. Diagnostic system according to one of the preceding claims, wherein the portable diagnostic device has a plurality of interfaces, which allow connection to a power supply and / or further diagnostic equipment and / or output devices. Diagnostic system according to one of the preceding claims, in which the portable diagnostic device additionally comprises operating elements (104, 106, 108) and a display (132, 134), which is designed in particular as a touch-sensitive surface, about which by interaction with a user specific information regarding. the HV battery can be enabled. A method of automatically diagnosing a HV battery of an electric vehicle, wherein a predetermined by a standard and provided next to a terminal of the HV battery for connection to an on-board electronics connector socket is connected by means of an electric cable with the HV battery directly, wherein the electric Cable is connected to a positive terminal and to a negative terminal of the HV battery, in which a portable diagnostic device having its own power supply is connected by a matching connector to the predetermined connector with the predetermined connector of the HV battery, wherein the diagnostic device after the connection, an automatic diagnosis of the HV battery is carried out and a respective result of this diagnosis, in particular in the case of a risk of contact, is represented by a respective signal (130) characterizing the respective result.

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