DE102009016624A1 - Method for charging electric vehicles, involves connecting electric vehicle with charging station for obtaining electricity, where charging of battery and desired charging duration of vehicle are determined - Google Patents

Abstract

The method involves connecting an electric vehicle (2) with a charging station (8) for obtaining electricity. The charging of a battery (4) and a desired charging duration of a vehicle are determined. The required energy is determined in order to charge the battery completely. The information of the required energy and the charging duration is conveyed to the charging station. An independent claim is also included for a device for charging electric vehicles.

Description

Of the Subject matter relates to a method and a device for loading of electric vehicles, in which an electric vehicle with a charging station for Obtaining electrical energy is connected.

The Distribution of electrically powered vehicles will be in the near future increase rapidly. With the proliferation of electric vehicles, the must be operated with an electric motor, but must be ensured be that they are supplied in the simplest way with energy can. For this a functioning infrastructure must be made available.

Especially has the opportunity be given in public Areas of energy for Obtain electric vehicles. In the previously available ranges of electric vehicles between 50 and some 100 km it is necessary that too outside of the domestic Environment loading the vehicles is possible. For this must be in public Areas charging stations available to provide a constant availability of energy for electric vehicles through a supply network. This availability is a key criterion for the acceptance of electric vehicles.

at in public However, areas installed charging stations must be ensured be that the customer pays the purchased energy. Also needs to be ensured be aware that the customer is aware of the expected costs. According to the conventional refueling process must The customer immediately before charging the battery know which Expect him to pay. For example, the customer has to pay the price for one Kilowatt hour be known. Furthermore Charging batteries is time consuming. Currently it is still not possible, to charge a vehicle battery with the same little time as is the case when refueling. Therefore, the expected Charging time is a crucial criterion for the consumer. He must know how long the charging process before starting a charging process lasts.

Out For this reason, the object was the object of a method to make available for charging electric vehicles, which possible provides a user-friendly charging interface.

These The task becomes objective solved by a method for charging electric vehicles, wherein an electric vehicle with a charging station for obtaining electrical Energy is connected, on the vehicle side at least one state of charge a battery and a desired one Charging time is determined, the vehicle side, the required energy, around the battery completely is charged, on the vehicle side, at least information about the required energy and the charging time to the charging station and on the vehicle side by means of the charging station with the help of obtained information from a plurality of different services at least receive a calculated service offer adapted to the information becomes.

It It has been recognized that in addition to the amount of energy which is necessary is to complete a battery charging time, also the charging time the user is ready to wait a decisive criterion for is the charging process. For this reason, objectively not only determines the required energy, but also the charging time considered, which the user desires becomes. On the basis of at least these two parameters, it is possible with Help the charging station different services from a plurality of service offers.

The in the charging station this can be the information received from the vehicle to a central office. In the center can then with this information, for example to the required Performance and the desired Charging duration, at least determine a suitable service offers. This at least one service can then from the headquarters transmitted to the charging station be transmitted from the charging station to the vehicle. In the vehicle can then the desired service from the available standing services are selected.

offerings can For example, by different currents and different voltages and different prices. Also can Services offered by various producer sources. For example can include a range of services from renewable energy sources, whereas another range offers electricity from conventional ones May include sources.

For example, it is also possible to provide different tariff models. In a first tariff model, for example, it is possible for a vehicle to be charged with a maximum current of 5 A and a maximum voltage of 230 V. For example, in a second tariff offer it is possible that the maximum current is 10 A and the maximum voltage is 360 V. It is also possible that the tariff models differ only in the maximum available power. In addition, it is possible that a first tariff model the maximum Current power over a period of time, whereas a second tariff model offers the maximum current in a diurnal line. This means that, for example, a higher current is available at night than during the day or at peak load times. Depending on the daily cycle, different currents are available at different times. The user of an electric vehicle may, for example, have booked different tariff models at his utility and select from these.

There the different tariff models have different capacities within of the energy supplier's network, they can also differ in price from each other. That's the way it is, for example possible, in a cheap Tariff model to a lower current at peak load times too relate and a higher one to rest. Would like to a user, however, realize a minimum load time at all times, that would be a tariff model conceivable, which at any time with the maximum current the maximum voltage available provides, so that the required energy in the shortest possible Time available is provided.

There not only the required energy on the vehicle side to fully charge a battery is determined, but also the desired charging time, can with Help charging station, for example in a central office, a corresponding range of services be determined and transmitted to the vehicle. In the vehicle can they various services are received. A communication between the vehicle and the charging station, for example, by means of the TCP / IP Protocol.

The Services can be transmitted for example in an encoded form. That's the way it is for example, possible that in the vehicle, a receiving unit parameters diversartigster Services already stored. In this case, the Charging station only provide a reference to the services identified and on the vehicle side, the parameters of the Services offered. For example, the services offered A, B, C, D are stored on the vehicle side. Determines the charging station, that the services A, D are sufficient to meet the required Energy in the desired Charging time available For example, only A and D can be transmitted to the vehicle become. In the vehicle is then determined based on these references, which current strength and what kind of tension the different services offer and what load time to expect if the user is one of them Services offers. Also in a service offer the energy price for this can Services are stored.

Also Is it possible, that vehicle-side loading preferences get saved. For example, a user of a vehicle may indicate that he prefers two specific services. is under the services offered by the charging station contain one of the user-preferred services, so an automatic selection of this service offer can be made.

Also Is it possible, that in addition to the information about the required energy and the desired charging time also one Vehicle identification transmitted becomes. The vehicle identification allows, on the part of the charging station by the user, respectively identify the appropriate vehicle tariff models. In this case, the charging station can be booked from the user's Tariff models the possible Determine service offers. Also it is possible that in the vehicle the tariff models booked by the user are stored and these transmitted to the charging station become. With the help of this information it is also possible that the Charging station determines the service offers.

in this connection Is it possible, that a loading preference for users stored in a central office. Is a user and / or vehicle identification known in the central office, the control center can the loading preference of Determine user. The loading preference may be linked, for example, to the tariff model of the customer. For example, a first customer may have chosen a tariff model, that's just conventional for reference generated electricity. In contrast, another customer can have one Tariff model selected have it green power guaranteed. This loading preference can be taken into account when selecting the service.

When submitting a vehicle identification, it is possible, for example, that the charging station by means of a communication protocol with a central Control Center communicates and based on the vehicle identification polls the tariff models booked by the user. Here it is possible, that the charging station at the time of the request for a loading process Control Center available services queries. Dependent from the available services offered in the charging station the charging station then the corresponding services to the Transmit vehicle.

According to an advantageous embodiment, it is proposed that one of the adjusted service offers is selected on the vehicle side, and that information about the selected one is selected Services are transmitted to the charging station. If the customized service offers have been received in the vehicle, these can be made available to the user for selection. This is possible, for example, by displaying on a display in the vehicle. The user can then select the service he wants. The selected service is in turn communicated to the charging station. It is also possible that either parameters of the service offering or a reference to a service offering to the charging station is transmitted by the vehicle. This communication can also be done via TCP / IP.

The Communication between the vehicle and the charging station can be wireless, for example by Wlan, Bluetooth, infrared, GSM, UMTS or the like. Also is a wired communication, for example via the Charging cable possible.

After this in the vehicle the adapted service offers have been received, Can vehicle side according to a advantageous embodiment the remaining charging time will be calculated. The determined loading time can along with the services also on the display the Users are displayed. For example, the user can himself decide if he wants a longer charge takes into account, whereby the purchased energy may be cheaper is. For example, computing the load time may involve determining an approximate Be charging time. For example, using measurement data, a Forecast for a loading time can be created. This may be from the actual end the loading time deviate that measured data, such as Outside temperature, Battery temperature and the like can change.

After this a user has selected a service offer on the vehicle side, this information is transmitted to the charging station. After the charging station This information can be received with the help of the charging station one of the selected services appropriate power provided on the charging cable become. For this purpose, the charging station can offer the corresponding service from the central office. The charging process can thus after receiving of the selected service be initiated in the charging station.

According to one advantageous embodiment It is also suggested that the charging station based on the selected service a remaining charging time is calculated. This is for example possible, that the remaining charging time is displayed in the charging station. Also, communication is the remaining charge time via the charging cable possible in the vehicle. Another communication from charging station to vehicle is also possible. Calculating the load time can be, for example, determining a approximate Be charging time. For example, using measurement data, a Forecast for a loading time can be created. This may be from the actual Deviate at the end of the loading time.

According to one advantageous embodiment it is proposed that the vehicle services be adapted are displayed. Therefor For example, a flat panel display, such as an LCD display, may be used become. It is also possible that the services on a touch-sensitive screen are displayed.

Around the user a particularly simple selection of services to be possible these over a user interface selectable displayed.

One Another object is a device for monitoring the charge of electric vehicles with Charging means for electrically connecting an electric vehicle with a charging station for acquiring electrical energy, detection means for vehicle-side determination of at least one state of charge of a Battery and a desired Charging time, calculating means for vehicle-based determination of the required Energy to complete the battery to charge, means of communication for on-board transmission at least the information about the required energy and the charging time to the charging station, wherein the communication means for receiving vehicle-side by means of the charging station with the help of the information obtained from a Many different services at least one information adjusted service offerings are formed.

One Another object is a method for charging electric vehicles in which a charging station with an electric vehicle for providing electrical energy is connected to the charging station side Information at least on the vehicle required energy, to a battery completely to be charged, and received at the charging time, with the help of the received Information from various services at least one the selected service is adjusted to the information, and charging station side transmitted the determined service offer to the vehicle becomes.

In this case, the charging station can query available services from a central station on the basis of the received information. Also, the central can be used by using a vehicle identifier determine on charging preferences of the user and determine depending on the charging preferences as well as the information on the state of charge and the desired charging time at least one service offering from a plurality.

One Another object is a device for charging electric vehicles with one with an electric vehicle to provide electrical energy connectable charging station, one arranged in the charging station Receiving device for receiving information at least for energy required by the vehicle to fully charge a battery, and the charging time, a communication device arranged in the charging station for communication with a control center and for transmission of the vehicle received information to the center and to receive at least a service offer adapted to the received information from different services offered by the head office, and one arranged in the charging station transmitting device for transmitting the at least one determined service offer to the vehicle.

following the object is explained in more detail with reference to drawings showing an exemplary embodiments. In show the drawing:

1 an exemplary structure of a device for monitoring the charge of electric vehicles;

2 an exemplary flowchart.

1 shows a vehicle 2 which is a battery 4 and an electric motor 6 having. Further shows 1 a charging station 8th , a communication network 10 , a power grid 12 as well as a control center (headquarters) 14 ,

In the vehicle 2 is on the battery 4 a charger 16 for charge control of the battery 4 arranged. The charger 16 is with an electrical junction box 18 connected. The electrical connection box 18 allows the vehicle 2 electrically via a charging cable 20 with a junction box 22 the charging station 8th to connect and thus electrical energy from the power grid 12 to acquire.

Further, in the vehicle 2 a measuring device 24 provided, which with the battery 4 and the charger 16 electrically connected. The measuring device allows the state of charge (SOC) of the battery 4 capture. The measuring device 24 is with a central control unit 26 connected. Furthermore, the central control unit 26 with a communication unit 28 connected. In addition, the central control unit 26 with a touch-sensitive display 30 connected.

The process of determining a desired service and charging the vehicle will be described below in the flowchart of FIG 2 shown.

In a first step 30 becomes the vehicle 2 by means of the charging cable 20 electrically via the junction boxes 18 and 22 with the charging station 8th connected. The electrical connection is made by means of the central control unit 26 detected. In a next step 32 generates the central control unit 26 a user identification and / or vehicle identification via the communication unit 28 on the charging cable 20 is modulated. In the charging station 8th the corresponding identification data are received and via the communication network 10 to the control center 14 transmitted. In the control center 14 Based on the identification data, a set of loading preferences determined by the user is determined. These loading preferences can correspond to different tariff models.

Subsequently, in one step 36 in the vehicle 2 by means of the measuring device 24 determines the state of charge of the battery. In addition, a user can via the touch-sensitive display 30 specify a desired charging time. For example, the user can specify how long the download should continue. Also, the user may specify an interval in which to load. This may be, for example, that the user indicates that the charge should be between 22 o'clock and 6 o'clock.

The central control unit 26 receives in the step 38 both the state of charge of the battery from the measuring device 24 as well as the desired charging time of the touch-sensitive display 30 , By means of the desired charging time and the state of charge determines the central control unit 26 the energy needed to fully charge the battery within the desired charging period. In this case, for example, by the central control unit 26 the electrical power needed to be charged by means of the charger 16 the battery 4 fully charged within the desired charging time.

The information about the required energy or power is supplied from the central control unit to the communication unit in the step 40 transmitted. The communication unit then encrypts 28 this information and modulates it on the charging cable 20 ,

In step 42 receives the charging station 8th the Information about the required energy and the charging time of the vehicle 2 , The charging station or a communication unit installed in the charging station transmits this data to the control center 14 , In the main office 14 then an available service offer is determined on the basis of these data. Here, the loading preference of the customer can be taken into account. Also, a charging preference of a customer can be selected independently of a tariff model. For example, the customer can already specify a charge preference during the charge request, which together with the information about the required energy and the charging time to the charging station 8th and on to the central office 14 is transmitted. The central office 14 thus determines at least one service offer.

The at least one service will then be in one step 34 from the central office 14 via the communication network to the charging station 8th transmitted and in the charging station 8th temporarily saved.

The determined service offers are in the step 44 from the charging station 8th over the charging cable 20 to the vehicle 2 transfer.

The communication unit 28 receives the determined service offers and transfers the information about the possible service offers to the central control unit 26 , In the central control unit 26 In addition to the performance and corresponding energy and energy, a tariff, for example an indication of the costs per kWh, is displayed. All information is preferably contained in the data record which is received by the charging station from the center and transmitted to the vehicle. Thus, it is possible that the tariff parameters together with the service on the charging cable 20 from the charging station 8th to the vehicle 2 be transmitted and thus in the central control unit 26 be available.

Also For example, this information can be done by checking a lookup table, in of all service offers assigned to certain tariff parameters are stored.

In step 46 The available services are provided to the user by means of the central control unit 26 and the touch-sensitive display 30 displayed. The user selects in one step 48 the desired range of services.

In step 50 transmits the communication unit 28 the selected service offer via the charging cable 20 to the charging station 8th , This transmission can, for example, be a reference to the service offered. In the charging station 8th is in the step 52 the selected service offer to the control center 14 over the communication network 10 transmitted. The control center 14 initiates the charging station 8th over the energy supply network 12 the energy corresponding to the service offer or

To draw power. The available power, in particular the maximum available current, is via the charging cable 20 the vehicle 2 made available. In step 54 becomes the provided electrical power in the charger 16 used the battery 4 charge.

During the charging process can be controlled by the central control unit 26 the state of charge by means of the measuring device 24 be determined and on the touch-sensitive display 30 are displayed. Also, to the user by means of the central control unit 26 and the measuring device 24 the (estimated) remaining charge time is displayed.

through the method described and the device described is it is possible the user a choice of different tariff offers available to charge his electric vehicle.

Claims (10)

Method for charging electric vehicles by - connecting an electric vehicle ( 2 ) with a charging station ( 8th for acquiring electrical energy, determining at least one state of charge of a battery on the vehicle side 4 ) and a desired charging time, - the vehicle-side determination of the required energy to the battery ( 4 ) fully charged, - at least the information about the required energy and the charging time to the charging station (on the vehicle side) ( 8th ), - vehicle-side receiving by means of the charging station ( 8th ) with the help of the information obtained from a plurality of different service offerings at least one service offer that has been adapted to the information. A method according to claim 1, characterized in that on the vehicle side one of the adapted service offers is selected and that information about the selected service offer to the charging station ( 8th ). Method according to claim 2, characterized in that on the vehicle side, based on the selected service offering remaining charging time is calculated. Method according to claim 2, characterized in that the charging station ( 8th ) upon receipt of the information on the selected service offering provides a corresponding service on a charging cable. Method according to claim 2, characterized in that the charging station ( 8th ) calculates a remaining charging time based on the selected service offer. Method according to claim 1, characterized in that on the vehicle side the adjusted service offers are displayed become. A method according to claim 6, characterized in that on the vehicle side the adjusted service offers via a user interface ( 30 ) are selectable. Device for charging electric vehicles with - charging means ( 16 ) for electrically connecting an electric vehicle ( 2 ) with a charging station ( 8th ) for obtaining electrical energy, - detection means ( 24 ) for determining at least one state of charge of a battery ( 4 ) and a desired charging time, 26 ) for determining, on the vehicle side, the energy required to fully charge the battery, - communication means ( 28 ) for transmitting on the vehicle side at least the information about the required energy and the charging time to the charging station ( 8th ), The means of communication ( 28 ) for vehicle-side receiving by means of the charging station ( 8th ) are formed with the help of the information obtained from a plurality of different service offers at least one of the information adapted determined service offer. Method for charging electric vehicles in the a charging station with an electric vehicle for providing electrical Energy is connected at the - charging station side information at least to the vehicle side required energy to a battery Completely to be charged and received at the time of charging, - with help the information received from various services at least one identified service offering adapted to the information is selected, and - charging station side the determined service offer is transmitted to the vehicle. Device for charging electric vehicles with - one with an electric vehicle for providing electrical energy connectable charging station, - one in the charging station arranged receiving device for receiving of information at least on the vehicle side required energy to a battery completely charge, and at charge time, - one in the charging station arranged communication device for communicating with a Central and for transmission the information received from the vehicle to the headquarters as well for receiving at least one of the received information Range of services from various services offered by the head office, and - one arranged in the charging station transmitting device for transmitting the at least one determined service offer to the vehicle.