DE102019111474A1 - Charging station for charging electric vehicles - Google Patents

Abstract

Charging station (1) for charging electric vehicles, having - an input (2) for supplying the charging station (1) with an AC voltage, - an AC / DC converter (3) for converting the AC voltage into a DC voltage with a first voltage level, - a DC / DC converter (4) for converting the direct voltage into an output direct voltage with a second voltage level, - a control unit (5) for controlling the AC / DC converter (4) and the DC / DC converter (4), - an output (8) for delivering an output current with the output DC voltage - a DC current meter (6) for measuring the output current is proposed. A method for charging an electric vehicle is also proposed.

Description

The present invention relates to a charging station for charging electric vehicles and a method for charging electric vehicles with a charging station.

To charge electric vehicles, an alternating current (AC charging) or direct current (DC charging) is usually made available to the electric vehicle from a charging station. With AC charging, an on-board charger of the electric vehicle generates a direct current from the alternating current provided. The direct current generated in this way can then be used to charge the vehicle battery. However, the on-board charger usually has narrow limits in terms of the maximum voltage it can accept. Furthermore, the on-board charger has to be designed differently for different charging stations (for example 1 or 3-phase), which makes it expensive and heavy.

With DC charging, there is no need for an in-vehicle on-board charger, which saves weight and costs on the vehicle side. The alternating current provided by the charging station can be used directly to charge the vehicle battery. When charging stations are used commercially, billing of the energy supplied to the end customer is often inadequate. Fixed prices per charging process or billing according to charging time usually do not reflect the amount of energy delivered and are not desirable either for the end customer or for the operator of the charging stations.

It is therefore an object of the present invention to provide a charging station which does not have the above-described disadvantages of the prior art and enables correct billing of the energy supplied to the end customer.

• - einen Eingang zur Versorgung der Ladestation mit einer Wechselspannung,
• - einen AC/DC-Wandler zur Umwandlung der Wechselspannung in eine Gleichspannung mit einem ersten Spannungsniveau,
• - einen DC/DC-Wandler zur Umwandlung der Gleichspannung in eine Ausgangsgleichspannung mit einem zweiten Spannungsniveau,
• - eine Steuereinheit zum Steuern des AC/DC-Wandlers und des DC/DC-Wandlers,
• - einen Ausgang zur Abgabe eines Ausgangsstromes mit der Ausgangsgleichspannung
• - ein Gleichstrommessgerät zum Messen des Ausgangsstromes.

This object is achieved by having a charging station for charging electric vehicles

• - an input for supplying the charging station with an alternating voltage,
• - an AC / DC converter for converting the alternating voltage into a direct voltage with a first voltage level,
• - a DC / DC converter for converting the direct voltage into an output direct voltage with a second voltage level,
• - a control unit for controlling the AC / DC converter and the DC / DC converter,
• - An output for delivering an output current with the output DC voltage
• - a direct current meter for measuring the output current.

The charging station according to the invention enables the DC charging of an electric vehicle and the correct billing of the transmitted energy by measuring the output current.

Advantageous refinements and developments of the invention can be found in the subclaims and the description with reference to the drawings.

According to a preferred embodiment of the invention it is provided that the direct current measuring device is calibrated. This enables a legally secure and trusting business relationship between the end customer and the operator of the charging station. It is also conceivable that the direct current measuring device is protected against manipulation. This can be done, for example, by a lead seal.

According to a further preferred embodiment of the invention, it is provided that the charging station has a billing unit for billing the output current, the direct current measuring device being configured to transmit measurement data to the billing unit. This enables the amount of electricity supplied to be converted into a purchase price by the billing unit. It is conceivable that the accounting unit is configured to calculate the purchase price by multiplying the amount of energy delivered by an electricity price and adding a basic fee. It is also conceivable that the electricity price is staggered according to the amount of energy delivered. It is also conceivable that the billing unit has a data interface through which the electricity price and / or the basic charge can be updated.

According to a further preferred embodiment of the invention, it is provided that the accounting unit has a display unit for displaying the output current output and / or wherein the accounting unit has a payment terminal for paying for the output current output. This makes it possible in an advantageous manner that during the loading process it is immediately apparent how high the purchase price is for the part of the loading that has already been carried out. It is conceivable that the payment terminal has a cash receptacle for accepting cash and / or a card reader for reading EC, credit or customer cards. However, it is also conceivable that the payment terminal has a device for contactless payment, for example with NFC. It is also conceivable that the accounting unit has an accounting interface for Transferring the measurement data to an external device is configured.

According to a further preferred embodiment of the invention it is provided that the direct current measuring device is configured to transmit measurement data to the control unit. This advantageously makes it possible to limit the amount of energy released to a preset amount. It is also conceivable that the output current is set to a certain level. It is also possible to monitor the charging process and detect malfunctions.

According to a further preferred embodiment of the invention, it is provided that the charging station has a communication interface, the communication interface being configured to operate the control unit, the communication interface being configured to output data from the control unit, the communication interface preferably being an operating terminal for operation and output of data. This advantageously enables the control and / or adjustment of settings of the charging station.

According to a further preferred embodiment of the invention it is provided that the communication interface is configured to operate the control unit and to output data by means of Ethernet and / or Bluetooth and / or WLAN and / or EEBus and / or NFC and / or a USB connection. This enables an advantageously simple operation of the communication interface.

Another object of the invention to solve the problem formulated at the beginning is a method for charging an electric vehicle with a charging station according to one of the preceding claims, wherein the AC / DC converter and the DC / DC converter are controlled by the control unit, the AC voltage of a Input current is converted by the AC / DC converter into the direct voltage with the first voltage level, the direct voltage from the DC / DC converter being converted into the output direct voltage with the second voltage level, the electric vehicle being charged with the output current with the output direct voltage at the output where the output current is measured with the DC current meter.

The method according to the invention enables the DC charging of an electric vehicle and the correct billing of the transmitted energy by measuring the output current.

According to a further preferred embodiment of the invention it is provided that measurement data are transmitted from the direct current measuring device to the accounting unit. This enables the amount of electricity supplied to be converted into a purchase price by the accounting unit. It is conceivable that the billing unit calculates the purchase price by multiplying the amount of energy supplied by an electricity price and adding a basic fee. It is also conceivable that the electricity price is graded according to the amount of energy delivered. It is also conceivable that the electricity price and / or the basic fee are updated.

According to a further preferred embodiment of the invention it is provided that measurement data are transmitted from the direct current measuring device to the control unit. This advantageously makes it possible to limit the amount of energy released to a preset amount. It is also conceivable that the output current is set to a certain level. It is also possible to monitor the charging process and detect malfunctions.

All details, features and advantages disclosed above relate both to the charging station according to the invention and to the method according to the invention.

• 1 illustriert schematisch eine Ladestation gemäß einer beispielhaften Ausführungsform der vorliegenden Erfindung.

Further details, features and advantages of the invention emerge from the drawings and from the following description of preferred embodiments with reference to the drawings. The drawings merely illustrate exemplary embodiments of the invention, which do not restrict the concept of the invention.

• 1 schematically illustrates a charging station according to an exemplary embodiment of the present invention.

In 1 is schematically a charging station 1 illustrated in accordance with an exemplary embodiment of the present invention. The charging station 1 directs the entrance 2 on; through which the charging station is supplied with electricity from a power grid (not shown). For this purpose, an alternating voltage of 3 V to 400 V is applied to the input. Furthermore, the charging station 1 the AC / DC converter 3 on, which converts the AC voltage into a DC voltage with a first voltage level. The AC / DC converter 3 is from the control unit 5 controlled. It is conceivable that the AC / DC converter 3 can be switched off so that the charging station 1 can also be used for AC charging. With the AC / DC converter 3 is the DC / DC converter 4th connected, which converts the electrical voltage applied to it from the first voltage level to a second voltage level. The DC / DC converter 4th is also controlled by the control unit 5 controlled. At the exit 8th , at which the output current for charging the electric vehicle is delivered, is indicated by the charging station 1 the DC meter 6th on. The direct current meter 6th is calibrated and measures the amount of energy that is delivered to the electric vehicle in the form of the output current. In addition to the functionality as a pure measuring device for direct current, the direct current measuring device 6th also able to measure alternating currents. This is in the 1 through one to the DC meter 6th connected drawn conductor loop indicated. The direct current meter 6th is with the control unit 5 connected and supplies this measurement data with regard to the output current output. The control unit controls based on the measurement data 5 the AC / DC converter 3 and the DC / DC converter 4th . The control unit 5 can be operated via the communication interface 9 , which are also used to output data, for example operating parameters of the charging station 1 , is provided. For this purpose, control commands and data are transmitted between an external terminal device and the communication interface using Ethernet and / or Bluetooth and / or WLAN and / or EEBUS and / or NFC and / or USB 9 transfer. Furthermore, the control unit is via the operator terminal 9 ' operable. To the DC meter 6th is the accounting unit 10 connected. This settles the output amount of electricity delivered and determines a purchase price. On the display unit 11 the accounting unit 10 the output power and the amount to be paid for the charge are displayed. Payment is made via the payment terminal 12th . Information about the output amount of electricity delivered and the purchase price determined can also be obtained from the billing interface 10 ' can be transmitted to an external device via Ethernet and / or Bluetooth and / or WLAN and / or EEBUS and / or NFC and / or USB.

List of reference symbols

1

Charging station

2

entrance

3

AC / DC converter

4th

DC / DC converter

5

Control unit

6th

DC current meter

8th

output

9

Communication interface

9 '

Control terminal

10

Accounting unit

10 '

Billing interface

11

Display unit

12

Payment terminal

Claims (10)

Charging station (1) for charging electric vehicles, having - an input (2) for supplying the charging station (1) with an alternating voltage, - an AC / DC converter (3) for converting the alternating voltage into a direct voltage with a first voltage level, - A DC / DC converter (4) for converting the direct voltage into an output direct voltage with a second voltage level, - a control unit (5) for controlling the AC / DC converter (4) and the DC / DC converter (4), - An output (8) for delivering an output current with the output DC voltage - A direct current meter (6) for measuring the output current. Charging station (1) Claim 1 , the direct current measuring device (6) being calibrated. The charging station (1) according to any one of the preceding claims, wherein the charging station (1) has a billing unit (10) for billing the output current, the direct current measuring device (6) being configured to transmit measurement data to the billing unit (10). Charging station (1) Claim 3 , wherein the accounting unit (10) has a display unit (11) for displaying the output stream output and / or wherein the accounting unit (10) has a payment terminal (12) for paying for the output current output. The charging station (1) according to one of the preceding claims, wherein the direct current measuring device (6) is configured to transmit measurement data to the control unit (5). The charging station (1) according to any one of the preceding claims, wherein the charging station (1) has a communication interface (9), the communication interface (9) being configured to operate the control unit (5), the communication interface (9) for outputting data from the control unit (5) is configured, the communication interface (9) preferably having an operating terminal (9 ') for operating and outputting data. Charging station (1) according to one of the preceding claims, wherein the communication interface (9) for operating the control unit (5) and for outputting data by means of Ethernet and / or Bluetooth and / or WLAN and / or EEBus and / or NFC and / or a USB connection is configured. Method for charging an electric vehicle with a charging station (1) according to one of the preceding claims, wherein the AC / DC converter (3) and the DC / DC converter (4) are controlled by the control unit (5), the AC voltage of an input current is converted by the AC / DC converter (3) into the direct voltage with the first voltage level, the direct voltage from the DC / DC converter (4) being converted into the output direct voltage with the second voltage level, the electric vehicle with the output current with the output DC voltage is charged at the output (8), the output current being measured with the DC current meter (6). Procedure according to Claim 8 , measurement data being transmitted from the direct current measuring device (6) to the accounting unit (10). Method according to one of the Claims 8 or 9 , measurement data being transmitted from the direct current measuring device (6) to the control unit (5).

Images