WO2020212095A1

WO2020212095A1 - Inverter, in particular micro solar-inverter

Info

Publication number: WO2020212095A1
Application number: PCT/EP2020/058096
Authority: WO
Inventors: Marvin TANNHÄUSER; Dominic BUCHSTALLER; Friedemann Paulini
Original assignee: Siemens Aktiengesellschaft
Priority date: 2019-04-18
Filing date: 2020-03-24
Publication date: 2020-10-22
Also published as: DE102019205701A1

Abstract

The invention relates to an inverter, in particular a micro solar-inverter, which is designed to be attached to a photovoltaic panel and to convert the direct current generated by the photovoltaic panel into an alternating current, comprising a device for wireless communication, wherein the device for wireless communication is designed to establish a direct data connection with another inverter and to transmit data directly to the other inverter and receive data directly from the other inverter via the data connection.

Description

description

Inverters, especially micro solar inverters

The invention relates to an inverter designed for attachment to a photovoltaic panel and for converting the direct current generated by this photovoltaic panel into an alternating current. Inverters that are assigned to exactly one photovoltaic panel and only convert its direct current are known as micro solar inverters.

Photovoltaic systems play an increasingly important role in the supply of electrical energy. A photovoltaic system comprises several solar panels (= photovoltaic modules or PV panels) that generate electrical energy when exposed to sunlight. The solar panels are typically built up side by side, for example by being arranged in a rectangular pattern on a house roof.

There are several options for the electrical connection. The solar panels can be connected together in one or more series, one series being referred to as a "string". A converter is then provided for each string or for the entire photovoltaic system, which converts the resulting direct voltage from the solar panels into alternating voltage. While the power electronics are advantageously bundled in this embodiment, the power is one

Strings depend on the fact that each of the solar panels is optimally illuminated. Shading or other influences on one or a few solar panels deteriorate the performance of the string disproportionately.

An alternative is the use of so-called optimizers (or optimizers), which are DC / DC converters and are arranged on each of the solar panels and carry out so-called maximum power point tracking (MPP tracking) there. This means that the performance deficits of a solar panel do not have a negative effect on other solar panels. larpanels of the same string, but additional power electronics are required on each panel.

In another possibility, so-called micro solar inverters (English solar micro inverter or microinverter) are used. These are also located on each of the solar panels and convert the generated direct voltage into alternating voltage. The power electronics are decentralized and the overall or string converter can be omitted. The micro solar inverters also perform MPP tracking. This results in further advantages. For example, the micro solar inverters allow you to work with significantly lower voltage. Conversely, the increased number of individual power electronics components results in the disadvantage of increased expenditure when commissioning and networking the micro solar inverters.

It is the object of the present invention to provide an inverter designed for attachment to a photovoltaic panel and for converting the direct current generated by this photovoltaic panel, which reduces or solves the problem mentioned at the beginning. This object is achieved by an inverter having the features of claim 1.

The inverter according to the invention is, in particular, a micro solar inverter and is designed for attachment to a photovoltaic panel and for converting the direct current generated by this photovoltaic panel into an alternating current. The inverter comprises a device for wireless communication, the device for wireless communication being designed to set up a direct data connection to a further inverter and to send data directly to the further inverter and to receive data directly from the further inverter.

The inverter is designed to convert only the direct current of a single PV panel and is therefore preferably connected directly to this. A direct data connection is a connection that works without going through an access point, router or other central device. A direct data connection also means that a successful data exchange is made possible, which is not limited to the physical reception of the signals, but includes an interpretation, storage and processing of the exchanged information.

The inverter according to the invention advantageously enables a wireless exchange of data and information between the inverters without the need for an infrastructure in the form of existing routers or similar devices. A suitable electrical infrastructure for using a powerline communication connection is also not required. Rather, the inverters connect to one another. Due to the wireless connection, the arrangement of the inverters and the number is irrelevant. This makes it much easier to pass on information in a new PV system and avoids the disadvantage of micro solar inverters and the larger number of devices.

Advantageous configurations of the converter according to the invention and of the operating method according to the invention emerge from the claims dependent on claim 1. The embodiment according to claim 1 and claim 7 can be combined with the features of one of the subclaims or preferably also with those from several subclaims. Accordingly, the following features can also be provided:

- The device for wireless communication can be designed to establish a WLAN connection to the other inverter as a direct data connection. The WLAN standard is widespread and makes it possible to install small and inexpensive modules that are common on the market for communication via WLAN. Furthermore, wireless contact with standard devices such as network routers is also possible without additional hardware. - The device for wireless communication can be designed to form a meshed wireless network with the further inverter. Further data connections to further inverters and / or network routers are preferably established. This advantageously creates a communication network in which the connected inverters can exchange data with all other connected devices. This is especially true if some of the affected devices cannot establish a connection on their own because, for example, the distance is too great or the attenuation of the signals by walls or ceilings between them is too intense. If one of the inverters cannot establish a direct connection to a network router, but another inverter can, then the meshed network enables a data connection between the inverter concerned and the network router.

For this purpose, the device for wireless communication can be configured to receive data that are sent from the further inverter to a network router from the further inverter and to the network router, and data sent from the network router to the further inverters are to be received by the network router and forwarded to the further inverter. It is also possible to forward data intended for the network router to other inverters, which in turn can reach the network router.

It can be useful if the connection is only extended to inverters of the same type. This prevents the network from including unwanted third-party devices and enables them to access the inverters and the network router. This increases the security of the network formed.

- The device for wireless communication can be designed to receive a request message from the far- send certain saved data to the other inverter. The stored data is preferably data that is used to configure the inverter. This can be, for example, network access data. However, it can also be configuration data for the electrical configuration for the inverter. This data is transmitted to the other inverter if it makes sense, i.e. when a corresponding request message is received from the other inverter.

This makes it possible that the configuration data do not have to be entered manually in the additional inverter. In a new PV system, it is sufficient for commissioning if one of the inverters is configured. The configuration is then automatically passed on to the inverters that have not yet been configured without having to perform another manual step, i.e. without further human intervention. This compensates for the disadvantage of the micro solar inverters that there is a large number of inverters that need to be commissioned. A later expansion of a photovoltaic system with further photovoltaic panels or the replacement of a PV panel or the inverter is also significantly simplified.

The network access data and / or configuration data transmitted in this way for the electrical configuration for the inverter are then expediently received by the additional inverter and stored and used for its own configuration.

- The inverter can be designed to define a commissioning period. The device for wireless communication is then also designed not to send the stored data when the request message is received outside of the start-up period. In other words, the stored data is transmitted only take place within the commissioning period. It is also possible that such data are only saved within the commissioning period after receipt. The commissioning period can be limited, for example, by receiving and using configuration data from the inverter. Once the inverter has received such data, it is no longer overwritten. It is also possible that after the configuration data have been saved, only the configuration data can be sent, so that it is not possible to overwrite the configuration incorrectly or intentionally.

- It is also possible that the transmission of the configuration data is only triggered by manual control. This can be done, for example, from a tablet or smartphone that is used during commissioning. This ensures that security-relevant data such as network keys cannot be easily accessed by third-party devices. It is also possible that an inverter can be set up to change or remove the configuration data through manual control, for example from a tablet or smartphone. This means that changes in the system or in the connected network, such as a password change, can also be transferred to the inverter after commissioning. At the same time, however, it prevents the data from being changed too easily.

Further advantages and features can be found in the following description of exemplary embodiments with reference to the figures. In the figures, the same reference symbols denote the same components and functions.

Show it:

Figure 1 shows a photovoltaic system with PV panels at a large spatial distance from a router connected to the Internet, Figure 2 the commissioning of a PV panel of the photovoltaic system,

FIG. 3 the commissioning of a further PV panel of the photovoltaic system.

FIG. 1 schematically shows a section from a photovoltaic system 10 with PV panels 121... 124. Each of the PV panels 121 ... 124 has its own inverter 131 ... 134. The AC power outputs of the inverters 131 ... 134 are connected to each other ^¬, which is not shown in FIG. 1 As a result, the electricity generated is fed into a building network, for example.

Furthermore, FIG. 1 shows a network router 15 which provides a WLAN network. The network router 15 is connected to the Internet 17 and provides other devices that are in a data connection with the network router 15 with access to the Internet 17.

In the photovoltaic system 10 are a first and a two-th PV panel 121, 122 arranged spatially so that the depending ^¬ weils associated inverters 131,132 itself can establish a direct wireless connection to the network router 15 °. As a result, the inverters 131, 132 can establish a connection to the Internet 17 without having to rely on additional devices or another infrastructure.

A third and a fourth PV panel 123, 124 are located at a greater spatial distance from the network router 15 than the two first PV panels 121, 122. The inverters 133, 134 of the third and fourth PV panels 123, 124 are therefore not able to establish a WLAN connection with the network router 15 themselves in this exemplary embodiment, since the WLAN signal is weakened too much by the distance and possibly also by building walls, ceilings and other obstacles. The inverter 133 of the third PV panel 123 therefore establishes a direct data connection to the inverter 131 of the first PV panel 121. Direct data connection means at here is that the data connection without going through a centra ^¬ les infrastructure element such as a router or access point is set up and direct data exchange between the inverters 131, 133 of the affected PV panels 121, allows the 123rd

Not only can data be exchanged between the two inverters 131, 133 via the direct data connection, but data packets can also be forwarded. The direct data connection enables the inverter 133 of the third PV panel 123 to access the network router 15 and the Internet 17 by transferring the data packets between the Internet 17 and the inverter 133 of the third PV panel 123 through the inverter 131 of the first PV - Panels 121 are forwarded.

The inverter 134 of the fourth PV panel 124 in turn establishes a direct data connection to the inverter 133 of the third PV panel 123. This also gives the inverter 134 of the fourth PV panel 124 access to the network router 15 and to the Internet 17.

The inverter 132 of the second PV panel 132 can also establish a direct data connection to the inverter 131 of the first PV panel 121, even if the inverter 132 is already connected directly to the network router 15.

The inverters 131 ... 134 of the PV panels 121 ... 124 thus create a so-called meshed network, in which the network nodes not only have a central infrastructure element such as a router or access

Point, but are partially or fully interconnected. This also enables access, for example to the Internet 17, to network nodes that themselves cannot establish a connection to a network router 15.

The direct data connection is wireless and can just ^¬ if its a WiFi connection as the wireless connection to the network router 15. Alternatively or additionally, however, other wireless communication such as Bluetooth, ZigBee or thread can be used to the meshed network ^¬ work to create.

A situation that occurs when a PV panel 121 ... 124 of the photovoltaic system is put into operation is shown in FIG. Commissioning is carried out under Zuhilfen ^¬ imitate a tablet PC 22, on the configuration data for the inverters 131 ... 134 are stored. Can ^¬ tion data such configura example, access to a wire-free network such as the generated by the network router 15 wireless be attainable access to the Internet 17

Cloud storage or data about the photovoltaic system 10 such as the number of installed PV panels 121 ... 124 or electrical configuration data such as a maximum output to be delivered. These data can be stored in the tablet PC 22 or entered in the tablet PC 22 by a user on site.

In the example given here, commissioning takes place for the second PV panel 122 and its inverter 132. A direct data connection is established between the tablet PC 22 and the inverter 132. In order for the tablet PC 22 can be ei ^¬ nem part of the mesh network, the inverter 131 ... 134 are. It is also possible for the tablet PC 22 to provide a WLAN access point which allows a WLAN connection to the inverter 132. If the meshed network uses Bluetooth, for example, the tablet PC 22 would not be part of the meshed network, but would nevertheless be connected to the inverter 132 for data exchange. A transmission 24 of the configuration data from the tablet PC 22 to the inverter 132 now takes place via the existing connection. The configuration data are saved there in a memory area provided for this purpose. The inverter 132 thereby receives the necessary data for its function and for external communication.

Since when using micro solar inverters there is a number of inverters 131 ... 134, which corresponds to the number of PV panels 121 ... 124, it is time-consuming to manually convert each individual inverter 131 ... 134 using the tablet PCs 22 to be configured. One and all further inverters 131... 134 of the photovoltaic system 10 are therefore started up according to FIG.

Here, a direct data link between the Wech selrichter 132 of the second PV panel 122 and the change Rich ter a further PV panels, by way of example here constructed judge the change ^¬ 131 of the first PV panels 121st This direct data connection can also already exist in the form of the meshed network between the inverters 131 ... 134.

A transmission 24 of the configuration data from the inverter 132 to the inverter 131 now takes place via this data connection. The configuration data are saved there again in a memory area provided for this purpose. The inverter 131 thereby receives the necessary data for its function and for external communication, but this time not through manual intervention by means of the tablet PC 22, but without manual intervention, that is to say automatically.

It is advantageous if an inverter 131 ... 134 only stores configuration data when the memory area provided for it is empty, i.e. no configuration data have yet been saved. This prevents overwriting with incorrect data. Be judge ... so configured 131,134 upon delivery at the factory state as example a change ^¬ that he is a writing of Speicherbe- Reichs allows. A single writing then changes the state so that further writing is no longer permitted, for example by setting a software flag.

It is then also possible for the inverters 131... 134 to allow further writing, that is to say overwriting, of the configuration data by manual intervention by means of the tablet PC 22. This means that, for example, a new network password can be recorded without any loss of security.

Sending the configuration data from one of the inverters 131 ... 134 can also be made possible by manual intervention from the tablet PC 22. Manual or automatic ^¬ illustrates the transmission can be prevented if all are configured before handenen PV panel 121 ... 124th To this end, the inverters 131... 134 can, for example, give feedback to the tablet PC 22, either directly or via the meshed network, that they have been configured. The user or the software on the tablet PC 22 knows how many inverters 131... 134 are present and can therefore decide when the configuration is complete. As a result, further sending of the configuration data can then be prevented, for example by setting a software flag, in order to avoid security problems.

List of reference symbols

10 photovoltaic system

121 ... 124 PV panels

131 ... 134 inverters

15 network router

17 Internet

22 Tablet PC

24 Transmission of the configuration data

Claims

1. Inverters (131 ... 134), in particular micro solar inverters, designed for attachment to a photovoltaic panel (121..124) and for converting the photovoltaic panel (121 ... 124) from this generated direct current into an alternating current, with a device for wireless communication, the device for wireless communication is ausal tet to establish a direct data connection to another inverter and to send data directly to the wide Ren inverter and data directly from the wide to receive your inverter.

2. Inverter (131 ... 134) according to claim 1, in which the device for wireless communication is designed to establish a WLAN connection to the further inverter as a direct data connection.

3. Inverter (131 ... 134) according to claim 1, in which the device for wireless communication is designed to form a meshed wireless network with the further inverter.

4. Inverter (131 ... 134) according to claim 1, wherein the device is designed for wireless communication, Da th, which are directed from the further inverter to a network router (15) to receive from the further inverter and forward to the network router (15) and data that are sent from the network router (15) to the other inverter to be received by the network router (15) and forwarded to the other inverter.

5. Inverter (131 ... 134) according to claim 1, in which the device is designed for wireless communication to send stored data to the further inverter upon receipt of a request message from the further inverter.

6. Inverter (131 ... 134) according to claim 1, in which the device for wireless communication is designed to send network access data as stored data.

7. Inverter (131 ... 134) according to claim 1, in which the device for wireless communication is designed to send configuration data (24) for the electrical configuration for the inverter as stored data.

8. Inverter (131 ... 134) according to claim 1, wherein the device is designed for wireless communication to receive network access data and / or configuration data (24) for the electrical configuration for the inverter from the white direct inverter and for save and use your own configuration.

9. Inverter (131 ... 134) according to claim 1, designed to define a commissioning period, the Einrich ^¬ device for wireless communication is designed not to send the stored data outside the commissioning period upon receipt of the request message .