Patent Application
20190229671
The invention relates to electric drive apparatuses used in different industries for different applications more particularly to a method for controlling access to an electric drive apparatus.
Electric drive apparatuses, i.e. electric drives are used in industry for different applications, such as for driving motors within the transportation industry, for driving different devices within the process and manufacturing industry as well as within the energy industry. There are applications commonly used for electric drives within the transportation industry for example in metro and railway traffic applications as well as in ship propulsion unit applications of the marine industry. Within the process and manufacturing industry, electric drives can be used for example in conveyer applications, in mixer applications or even in paper machine applications. Within the energy industry, electric drives can be used for example as electric drives for wind turbines of the wind power industry and as electric drives of the solar power industry.
Electric drives for electric motors may be divided into DC motor drives (DC, direct current) and AC drives (AC, alternating current). In a DC motor of a DC motor drive, a magnetic field is generated by the current through the field winding in the stator. This magnetic field is always maintained at right angles to the field generated by the armature winding. In this way, a DC motor's torque is generated, which torque can then be easily controlled in a DC motor drive by changing the armature current and keeping the magnetizing current constant. In a DC motor drive, also the DC motor speed can be controlled directly through armature current.
Within electric drives, the AC drives may further be divided into frequency-controlled AC drives, flux-vector-controlled AC drives and into AC drives utilising direct torque control (DTC, Direct Torque Control). In flux-vector-controlled AC drives and in direct torque control AC drives the torque of the three-phase motor can be controlled, whereas in frequency controlled AC drives the load dictates the torque level.
In the following, prior art will be described with reference to the accompanying
Electric drives are typically used in very demanding applications. Especially, in most of the applications used, the demand for a most optimal and reliable operation and for operational efficiency constantly increasing. The operation of an electric drive apparatus depends upon the most optimal configuration and upon the most optimal electric drive parameter set up. When electric drives are used in an application to drive the load, e.g. a motor, optimally, energy will be saved considerably. On the other hand, when electric drives are not used correctly or are not having the most optimal configuration in an application, energy savings will not be that great.
In a typical electric drive application, there are several subsystems in the electric drive apparatus and in the application setting that may all contribute to reliable operation and to the overall operational efficiency of the electric drive application. For example in
The evolvement of communication technology, particularly wireless communication technology and end user devices, has enabled versatile communication possibilities and introduction of different services. There are smartphone applications that allow a user of the smartphone to receive service recommendations for a machine, store operational data on the machine over the network connection, and troubleshoot the machine.
Nowadays vendors of electric drives would like to develop vendor specific mobile smartphone applications as a solution for accessing and controlling the electric drive apparatus and its subsystems. The problem for such a mobile smartphone application solution is that it typically is not compatible with the electric drive manufacturers drive control and drive communication applications.
According to an aspect, there is provided the subject matter of the independent claims. Embodiments are defined in the dependent claims.
One or more examples of implementations are set forth in more detail in the accompanying drawings and the description below. Other features will be apparent from the description and drawings, and from the claims.
Some embodiments provide methods, apparatuses, a system and a computer program product for providing a solution for controlling access to an electric drive apparatus that would enable the development of vendor specific mobile smartphone applications and would enable a proper access to the electric drive order to control properly the electric drive apparatus and its subsystems.
In the following, the present invention will be described in greater detail by way of example and with reference to the accompanying drawings, in which:
Prior art drawing of
The following embodiments are exemplary. Although the specification may refer to “an”, “one”, or “some” embodiment(s) in several locations, this does not necessarily mean that each such reference is to the same embodiment(s), or that the feature only applies to a single embodiment. Single features of different embodiments may also be combined to provide other embodiments. Furthermore, words “comprising” and “including” should be understood as not limiting the described embodiments to consist of only those features that have been mentioned and such embodiments may contain also features/structures that have not been specifically mentioned.
In the embodiment illustrated in
In the embodiment illustrated in
Said mobile library software component 13 may e.g. be provided by the manufacturer of the electric drive apparatus to the vendor of said the electric drive apparatus. Said mobile library software component 13 may utilize electric drive unique identifiers (ID) and may provide the user with a ready-made mobile library with a list 14, 15 of electric drive apparatuses that the user can communicate to with the help of said mobile library software component 13. Said electric drive unique identifiers (ID) are unique identifiers stored inside each electric drive apparatus, which unique identifiers securely identify said electric drive apparatus. Said mobile library software component 13 may be compiled as a software component, which is not opened to user.
Each user may be given access to only one list 14, 15 of electric drive apparatuses in accordance with the access rights granted to said user while the other lists 14, 15 are not visible to said user. For example, a user A may be given access to List A 14, said List A 14 listing the electric drive apparatuses the user A is given an access to. Similarly, a user B may be given access to List B 15, said List B 15 listing the electric drive apparatuses the user A is given an access to.
Said mobile library software component 13 may have clear application programming interface (API), i.e. a clear set of subroutine definitions, protocols, and tools for building application software to the electric drive apparatus access control tool 10. This enables the vendor to develop and offer to the user a vendor specific mobile application built on top said mobile library software component 13 offered by the electric drive apparatus manufacturer. With the help of said mobile library software component 13 the user can communicate to any of the electric drive apparatuses mentioned a list 14, 15 of electric drive apparatuses with the help of said mobile library software component 13.
In the embodiment illustrated in
In the embodiment illustrated in
In the presented exemplary embodiment, a user A may be given access to List A 14, said List A 14 listing the electric drive apparatuses the user A given an access to. As shown in
In the embodiment illustrated in
The electric drive apparatus system according to the presented exemplary embodiment also comprises a user apparatus 20. The user apparatus 20 refers to a computing device (equipment), that may be a non-portable device or a portable device (mobile device), and it may also be referred to as a user terminal or user device. Portable computing devices (apparatuses) include wireless mobile communication devices operating with or without a subscriber identification module (SIM) in hardware or in software, including, but not limited to, the following types of devices: mobile phone, smart-phone, personal digital assistant (PDA), laptop and/or touch screen computer, tablet (tablet computer), multimedia device, wearable computer and other types of wearable devices, such as clothing and accessories incorporating computer and advanced electronic technologies. The user apparatus 20 is configured to support access control of electric drives in an electric drive apparatus system.
In the illustrated example, the user apparatus 20 has at least two communications interfaces, one to connect to the server 21 wirelessly over one or more networks 22 and one to connect to said one or more installed electric drives 23-25 over a local connection. The wireless connection to the service center may be provided by any mobile system, such as GSM, GPRS, LTE, 4G, 5G and beyond, or a combination of a mobile system and a fixed system, like Wi-Fi or Li-Fi providing access to internet and via internet to the service center. The local connection may be provided naturally over a mobile system but it may be provided by a direct connection, for example using Bluetooth, or by a local network, like Wi-Fi or Li-Fi. The number of reception and/or transmission antennas (not illustrated in
The one or more networks 22 (communications networks) may comprise one or more wireless networks, wherein a wireless network may be based on any mobile system, such as GSM, GPRS, LTE, 4G, 5G and beyond, or a wireless local area network, such as Wi-Fi, Li-Fi. Further, the one or more networks 22 may comprise one or more fixed networks and internet.
In the illustrated example the server 21, like a cloud server or a grid server, refers herein to a combination of a data storage and a data management system. The data storage may be any kind of conventional or future data repository, including distributed and centralized storing of data, a cloud-based storage in a cloud environment, managed by any suitable management system. The implementation of the data storage, the manner how data is stored, retrieved and updated are irrelevant to the invention, and therefore not described in detail here. The server 21 comprises a connection over the one or more networks 22 to said user apparatus 20.
In a typical of electric drive apparatus setup the control software of the electric drive is usually executed on the specific central processing unit (CPU) which control software is typically embedded very closely to drive hardware. Control software has multiple tasks to control the drive based on physical inputs and outputs.
Referring to
After the updating 4-3 of said list 14, 15 of electric drive apparatuses is completed, the server 21 may inform 4-4 the user apparatus 20, e.g. by messaging, of said completed update. The user apparatus 20 detects the completion of the update and initiates a session 4-5 for downloading the said list 14, 15 of electric drive apparatuses from said server 21. Thus, the download session is established between said server 21 and the user apparatus 20; the messages 4-6 illustrate the download session establishment and information exchange and download between them.
As the user apparatus 20 has now received said list 14, 15 of electric drive apparatuses, said user apparatus 20 is now given access 4-7 to electric drive apparatuses in said list 14, 15 in accordance with the access rights granted to said user apparatus 20. The user, i.e. the user apparatus 20 may now establish a local connection to said electric drive apparatuses (Drive 1 and Drive 2; messages 4-8 and 4-9). With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters. In certain embodiments, modifying, controlling or changing a drive parameter is effective to control the operation of the electric drive apparatus or apparatuses associated with the drive parameter.
The drive parameters may include parameters including but being not limited to: electric drive model parameters, drive component version parameters, functional drive parameters (including drive motor rating parameters), physical drive parameters, drive test parameters (including drive motor ID run result parameters), user generated parameters, drive application generated parameters, drive accessory parameters, drive optional module/hardware parameters (including field bus module parameters, functional safety module parameters, braking chopper parameters, I/O module parameters). The drive parameters may also include drive application parameters. The other relevant process information may include load information, torque information, motor speed information, power consumption information, or any other relevant process information.
After the process requiring the access to electric drive apparatuses is completed, the electric drive apparatus access control tool application 10 in said user apparatus 20 may receive or detect in point 4-18 information indicating to end the session. In response to receiving, or detecting in point 4-18 information indicating to end the session, the electric drive apparatus access control tool application 10 in said user apparatus 20 releases in point 4-18 the session and the connection and resources reserved for them. Further, the electric drive apparatus access control tool application 10 may shut down, unless needed for other corresponding sessions.
Referring to
Said drive access list 14, 15 is a list 14, 15 of electric drive apparatuses that the user can communicate to with the help of a mobile library software component 13 of said electric drive apparatus access control tool 10. Said drive access list 14, 15 is then generated 51 by a server 21. After the completion of the generated 51 drive access list 14, 15, said completion is detected by the user apparatus 20.
After detecting the generated 51 drive access list 14, 15 by the user apparatus 20, said drive access list 14, 15 is downloaded 52 from said server 21 to said user apparatus 20. After completing of the downloading 52 of drive access list 14, 15, said user apparatus 20 is now given access to electric drive apparatuses 23, 24 in said list 14, 15 in accordance with the access rights granted to said user apparatus 20.
After the downloading 52 of the drive access list 14, 15 the user, i.e. the user apparatus 20, may now access 53 said electric drive apparatuses 23, 24 by establishing a local connection to in accordance with the access rights granted to said user apparatus 20. With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters.
The memory 604, 704 or part of it may be implemented using any suitable data storage technology, such as semiconductor based memory devices, flash memory, magnetic memory devices and systems, optical memory devices and systems, fixed memory and removable memory.
The one or more communication interfaces (TX/RX) 601, 701 may comprise hardware and/or software for realizing communication connectivity according to one or more communication protocols. The communication interface 601, 701 may comprise standard well-known components such as an amplifier, filter, frequency-converter, (de)modulator, and encoder/decoder circuitries and one or more antennas. The communication interfaces 601, 701 may comprise radio interface components and/or other wireless interface components providing the apparatus with wireless communication capability.
A user interface 601′ may be any kind of a user interface, for example a screen, microphone, headset, head-mounted display, and/or one or more loudspeakers for interaction with the user.
In another embodiment illustrated in
In the presented another exemplary embodiment, a user A may be given access to List A 14, said List A 14 listing the electric drive apparatuses the user A is given an access to. As shown in
In the presented another exemplary embodiment, the user apparatus 20 of user A may have a connection to said server 21 over one or more networks 22. Said server 21, i.e. said access control server 21, may update said mobile library software component 13 and subsequently said one or more lists 14, 15 of electric drive apparatuses in order to add or remove electric drives 23-24, 26 in said electric drive apparatus system. In the presented example, a new electric drive apparatus i.e. a new drive 26 is added to said previous List A thus generating a new updated list A. Said new updated list A is then downloaded from said server 21 by user apparatus 20. Said generated new updated list A can e.g. be encapsulated into a separate encrypted entity, which can be opened by library software component 13 inside said electric drive apparatus access control tool 10. As shown in
Referring to
After the updating 4-3 of said list 14, 15 of electric drive apparatuses is completed, the server 21 may inform 4-4 the user apparatus 20, e.g. by messaging, of said completed update. The user apparatus 20 detects the completion of the update and initiates a session 4-5 for downloading the said list 14, 15 of electric drive apparatuses from said server 21. Thus, the download session is established between said server 21 and the user apparatus 20; the messages 4-6 illustrate the download session establishment and information exchange and download between them.
As the user apparatus 20 has now received said list 14, 15 of electric drive apparatuses, said user apparatus 20 is now given access 4-7 to electric drive apparatuses in said list 14, 15 in accordance with the access rights granted to said user apparatus 20. The user, i.e. the user apparatus 20 may now establish a local connection to said electric drive apparatuses (Drive 1 and Drive 2; messages 4-8 and 4-9). With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters.
In the presented another exemplary embodiment, the user apparatus 20 may decide to update 4-10 access rights granted to said user apparatus 20. Consequently, said user apparatus 20 establishes in point 4-11 a session to said server 21 for updating said access rights.
Thereafter, in point 4-12, said server 21 updates a list 14, 15 of electric drive apparatuses for providing the user with said updated list 14, 15 of electric drive apparatuses that the user can communicate to with the help of a mobile library software component 13 of said electric drive apparatus access control tool 10.
The server 21 may update said one or more lists 14, 15 of electric drive apparatuses in order to add or remove electric drives 23-24, 26 in said electric drive apparatus system. In the presented example, a new electric drive apparatus i.e. a new drive (Drive 3) is added to said previous list 14, 15 thus generating a new updated list 14, 15.
After the updating 4-12 of said list 14, 15 of electric drive apparatuses is completed, the server 21 may inform 4-13 the user apparatus 20, e.g. by messaging, of said completed update. The user apparatus 20 detects the completion of the update and initiates a session 4-14 for downloading the said updated list 14, 15 of electric drive apparatuses from said server 21. Thus, the download session is established between said server 21 and the user apparatus 20; the messages 4-15 illustrate the download session establishment and information exchange and download between them.
As the user apparatus 20 has now received said updated list 14, 15 of electric drive apparatuses, said user apparatus 20 is now given access 4-16 to electric drive apparatuses in said updated list 14, 15 in accordance with the access rights granted to said user apparatus 20. The user, i.e. the user apparatus 20 may now establish a local connection to said added electric drive apparatuses (Drive 3; messages 4-17). With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters.
After the process requiring the access to electric drive apparatuses is completed, the electric drive apparatus access control tool application 10 in said user apparatus 20 may receive or detect in point 4-18 information indicating to end the session. In response to receiving, or detecting in point 4-18 information indicating to end the session, the electric drive apparatus access control tool application 10 in said user apparatus 20 releases in point 4-18 the session and the connection and resources reserved for them. Further, the electric drive apparatus access control tool application 10 may shut down, unless needed for other corresponding sessions.
Referring to
Said drive access list 14, 15 is a list 14, 15 of electric drive apparatuses that the user can communicate to with the help of a mobile library software component 13 of said electric drive apparatus access control tool 10. Said drive access list 14, 15 is then generated 51 by a server 21. After the completion of the generated 51 drive access list 14, 15, said completion is detected by the user apparatus 20.
After detecting the generated 51 drive access list 14, 15 by the user apparatus 20, said drive access list 14, 15 is downloaded 52 from said server 21 to said user apparatus 20. After completing of the downloading 52 of drive access list 14, 15, said user apparatus 20 is now given access to electric drive apparatuses 23, 24 in said list 14, 15 in accordance with the access rights granted to said user apparatus 20.
After the downloading 52 of the drive access list 14, 15 the user, i.e. the user apparatus 20, may now access 53 said electric drive apparatuses 23, 24 by establishing a local connection to in accordance with the access rights granted to said user apparatus 20. With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters.
In the presented another exemplary embodiment, the user may decide to update 54 the access rights granted to said user apparatus 20, e.g. by utilizing said electric drive apparatus access control tool application 10 in said user apparatus 20. Consequently, said user apparatus 20 initiates the generation 55 of an updated drive access list 14, 15. Said updated drive access list 14, 15 is an updated list 14, 15 of electric drive apparatuses that the user can communicate to with the help of a mobile library software component 13 of said electric drive apparatus access control tool 10.
The server 21 may update said one or more lists 14, 15 of electric drive apparatuses in order to add or remove electric drives 23-24, 26 in said electric drive apparatus system. In the presented example, a new electric drive apparatus i.e. a new drive 26 is added to said previous list 14, 15 thus generating 55 a new updated list 14, 15. Said updated drive access list 14, 15 is then generated 55 by said server 21. After the completion of the generated 55 updated drive access list 14, 15, said completion is detected by the user apparatus 20.
After detecting the generated 55 updated drive access list 14, 15 by the user apparatus 20, said updated drive access list 14, 15 is downloaded 56 from said server 21 to said user apparatus 20. After completing of the downloading 56 of the updated drive access list 14, 15, said user apparatus 20 is now given access to electric drive apparatuses 23, 24, 26 in said updated list 14, 15 this including access to said added electric drive apparatus 26 in said updated list 14, 15 in accordance with the access rights granted to said user apparatus 20.
After the downloading 56 of the drive access list 14, 15 the user, i.e. the user apparatus 20, may now access 57 said electric drive apparatuses 23, 24, 26, this including said added electric drive apparatus 26. Thus, the user may access 57 said electric drive apparatuses 23, 24, 26 by establishing a local connection to in accordance with the access rights granted to said user apparatus 20. With the help of the established connection the user may e.g. modify, control or change one or more of the drive parameters.
The steps, points, related functions, and information exchanges described above by means of
The above steps, points, related functions, and information exchanges described above by means of
The techniques and methods described herein may be implemented by various means so that a user apparatus/user device and/or a server/database server configured to support configuration of an electric drive apparatus, based on at least partly on what is disclosed above with any of
With the help of the present invention, a user, e.g. a customer or a service engineer, can manage the drives easily with own user apparatus 20 and a electric drive apparatus access control tool 10. The mobile library software component 13 according to the present invention provides the user with clear and updated information on the accessible electric drive apparatuses 23, 24, 26.
Furthermore, with the help of a mobile library software component 13 according to the present invention offered by the electric drive apparatus manufacturer, the vendor of electric drive apparatuses can easily develop and offer to the user a vendor specific mobile application, such as e.g. an electric drive apparatus access control tool 10, built on top said mobile library software component 13.
The present invention provides additional security in accessing accessible the electric drive apparatuses. With the help of the present invention, the user can securely access the accessible electric drive apparatuses 23, 24, 26 in accordance with the access rights granted to said user. The mobile library software component 13 according to the present invention securely provides, e.g. by using electric drive unique identifiers (ID), the user with a ready-made mobile library with a list 14, 15 of electric drive apparatuses that the user can securely access.
As used in this application, the term “circuitry” refers to all of the following: (a) hardware-only circuit implementations, such as implementations in only analog and/or digital circuitry, and (b) combinations of circuits and software (and/or firmware), such as (as applicable): (i) a combination of processor(s) or (ii) portions of processor(s)/software including digital signal processor(s), software, and memory(ies) that work together to cause an apparatus to perform various functions, and (c) circuits, such as a microprocessor(s) or a portion of a microprocessor(s), that require software or firmware for operation, even if the software or firmware is not physically present. This definition of “circuitry” applies to all uses of this term in this application. As a further example, as used in this application, the term “circuitry”' would also cover an implementation of merely a processor (or multiple processors) or a portion of a processor and its (or their) accompanying software and/or firmware. The term “circuitry” would also cover, for example and if applicable to the particular element, a baseband integrated circuit or applications processor integrated circuit for a user apparatus or a similar integrated circuit in a service desk, or in a server.
In an embodiment, the at least one processor, the memory, and the computer program code form processing means or comprises one or more computer program code portions for carrying out one or more operations according to any one of the embodiments of
Embodiments as described may also be carried out in the form of a computer process defined by a computer program or portions thereof. Embodiments of the methods described in connection with
Even though the invention has been described above with reference to examples according to the accompanying drawings, it is clear that the invention is not restricted thereto but can be modified in several ways within the scope of the appended claims. Therefore, all words and expressions should be interpreted broadly and they are intended to illustrate, not to restrict, the embodiment. It will be obvious to a person skilled in the art that, as technology advances, the inventive concept can be implemented in various ways. Further, it is clear to a person skilled in the art that the described embodiments may, but are not required to, be combined with other embodiments in various ways.
It will be obvious to a person skilled in the art that, as technology advances, the inventive concept can be implemented in various ways. The invention and its embodiments are not limited to the examples described above but may vary within the scope of the claims.
