CN110070149B

CN110070149B - Operating system and operating method for performing parameter setting on a large number of electronic devices

Info

Publication number: CN110070149B
Application number: CN201810065574.5A
Authority: CN
Inventors: 刘祖桓
Original assignee: Advantech Co Ltd
Current assignee: Advantech Co Ltd
Priority date: 2018-01-23
Filing date: 2018-01-23
Publication date: 2022-04-05
Anticipated expiration: 2038-01-23
Also published as: CN110070149A

Abstract

The invention provides an operating system and an operating method for executing parameter setting on a plurality of electronic devices, wherein the operating system comprises a host device and a plurality of electronic devices, each electronic device comprises a control module and an RFID tag, the RFID tag comprises a tag antenna, a tag memory module and an RFID chip, the host device is connected with an RFID reader-writer, the host device transmits at least one set data to each electronic device through the RFID reader-writer, the electronic device receives the set data through the tag antenna of the RFID tag and stores the set data into the tag memory module, and when the electronic device is converted from an unpowered state to a powered state, the control module of the electronic device reads the set data from the tag memory module of the RFID tag and sets at least one parameter according to the set data.

Description

Operating system and operating method for performing parameter setting on a large number of electronic devices

Technical Field

The present invention relates to an operating system and an operating method, and more particularly, to an operating system and an operating method capable of performing parameter setting for a large number of electronic devices.

Background

Rfid (radio Frequency identification) is a wireless communication technology. Currently, most of the RFIDs are configured on an object under test in the form of Tag (Tag) as an additional device for the object under test. The RFID tag is often used to store the basic data of the object to be tested, and there is no direct interaction with the object to be tested itself, so that the monitor can read and write the data in the RFID tag by using an RFID reader.

Furthermore, the industrial electronic equipment often needs to set parameters. In the past, the parameter setting of the industrial electronic equipment is performed by connecting a host to the started electronic equipment in a wired manner, and then setting each parameter of the industrial electronic equipment one by the host. However, a factory generally has a large number of electronic devices, and if a monitor performs parameter setting for each electronic device in a conventional manner, the production efficiency is indirectly affected by a large amount of labor cost and time.

In view of the above, the present invention provides an innovative mechanism for setting parameters of electronic devices, which performs parameter setting for a large number of electronic devices simultaneously through RFID tags, so as to reduce the labor and time for parameter setting.

Disclosure of Invention

An object of the present invention is to provide an operating system for performing parameter setting on a plurality of electronic devices, wherein the operating system includes a host device and a plurality of electronic devices, each of the electronic devices includes a control module and an RFID tag, the RFID tag includes a tag antenna and a tag memory module, the host device establishes a communication connection with the RFID tag of each of the electronic devices through an RFID reader/writer, the tag memory module of the electronic device is used as a data exchange medium to store the setting data of the parameters to be set by the host device in the tag memory module before the electronic device is powered on, and after the electronic device is powered on, the control module actively obtains the setting data from the tag memory module to perform the parameter setting procedure, and thus, when the parameter setting procedure is performed, the electronic device does not need to wait for the power on, and can complete the parameter setting operation of a plurality of electronic devices in a very short time in an RF wireless mode, so as to effectively solve the problem that the parameter setting of the existing industrial control electronic device consumes labor and time.

To achieve the above object, the present invention provides an operating system for performing parameter setting on a plurality of electronic devices, comprising: each electronic device comprises a control module and an RFID volume label, wherein the RFID volume label is connected with the control module through a transmission line and comprises a volume label antenna, a volume label memory module and an RFID chip, and the RFID chip is respectively connected with the volume label antenna and the volume label memory module; the host equipment is connected with the RFID reader-writer; when the electronic device is switched from an unpowered state to a powered state, the control module actively reads the setting data from the tag memory module of the RFID tag and sets at least one parameter according to the setting data.

In an embodiment of the present invention, the control module generates a setting result after setting the parameters, and the setting result is transmitted back to the host device via the RFID tag and the RFID reader.

In an embodiment of the present invention, the host device includes a setting unit, and the host device generates the setting data through an operation of the setting unit.

In one embodiment of the present invention, the transmission line is an I2C transmission line or an SPI transmission line.

In an embodiment of the invention, the control module includes a memory area, and the setting data read by the control module from the tag memory module is stored in the memory area.

In an embodiment of the present invention, when the electronic device is in a power-on state, the host device transmits at least one control command to the electronic device via the RFID reader/writer, the electronic device receives the control command via the tag antenna of the RFID tag and temporarily stores the control command in the tag memory module, the control module reads the control command from the tag memory module of the RFID tag, executes a command operation according to the control command, and generates a response signal after the command operation is executed, and the response signal is transmitted back to the host device via the RFID tag and the RFID reader/writer.

The invention also provides an operation method for executing parameter setting for a plurality of electronic devices, the operation method is applied to an operation system, the operation system comprises a host device and a plurality of electronic devices, each electronic device comprises a control module and an RFID tag, the RFID tag is connected with the control module and comprises a tag antenna, a tag memory module and an RFID chip, the RFID chip is respectively connected with the tag antenna and the tag memory module, and the operation method comprises the following steps: enabling the host equipment to transmit at least one set datum to each electronic equipment through the RFID reader-writer; enabling the electronic equipment to receive the setting data through the tag antenna of the RFID tag and store the setting data to the tag memory module; operating the electronic device from an unpowered state to a powered state; and enabling the control module of the electronic equipment to actively read the setting data from the volume label memory module of the RFID volume label and set at least one parameter according to the setting data.

In an embodiment of the present invention, the method further comprises the following steps: the control module of the electronic equipment generates a setting result after setting the parameters; and returning the setting result to the host device through the RFID tag and the RFID reader-writer.

In an embodiment of the present invention, when the electronic device is operated in the power-on state, the method further includes the following steps: enabling the host device to transmit at least one control instruction to the electronic device through the RFID reader-writer; enabling the electronic equipment to receive the control instruction through the volume label antenna of the RFID volume label and temporarily store the control instruction into the volume label memory module; enabling the control module to read a control instruction from a volume label memory module of the RFID volume label; enabling a control module of the electronic equipment to execute an instruction operation according to the control instruction and generating a response signal after the instruction operation is executed; and returning a response signal to the host device through the RFID tag and the RFID reader.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

FIG. 1: a system architecture diagram of an embodiment of an operating system of the present invention;

FIG. 2: a schematic structural diagram of an embodiment of an electronic device of the present invention;

FIG. 3: a data transfer flow diagram of an embodiment of a method of operation of the present invention;

FIG. 4: a data transfer flow diagram of yet another embodiment of a method of operation of the present invention.

Description of the main component symbols:

100 operating system 10 host device

11 setting unit 111 setting data

113 control command 15 interface line

20 RFID reader 21 RFID antenna

30 control module of electronic device 31

310 memory region 311 set result

313 response signal 32 transmission line

351 RFID chip 353 volume label antenna

Detailed Description

The invention will be described in detail with reference to the following drawings, which are provided for illustration purposes and the like:

referring to fig. 1, fig. 2 and fig. 3, a system architecture diagram of an embodiment of an operating system of the present invention, a schematic structural diagram of an embodiment of an electronic device of the present invention, and a data transmission flow diagram of an embodiment of an operating method of the present invention are respectively shown. As shown in fig. 1, the operating system 100 includes a host device 10 and a plurality of electronic devices 30. The host device 10 may also be a computer device, which is connected to an RFID reader/writer 20 having an RFID antenna 21 via an interface line (e.g., RS-232 interface or USB interface) 15.

Further, with reference to fig. 2, the electronic device 30 may also be an industrial electronic device. Each electronic device 30 includes a control module 31 and an RFID Tag (RFID Tag) 35. The control module 31 is connected to the RFID tag 35 via a transmission line (e.g., I2C transmission line or SPI transmission line) 32 and includes a memory area 310. The memory area 310 is a firmware or a storage element. The RFID tag 35 includes an RFID chip 351, a tag antenna 353, and a tag memory module 355. The RFID chip 351 is connected to the tag antenna 353 and the tag memory module 355, respectively. In an embodiment of the invention, the RFID chip 351 is an Application Specific Integrated Circuit (ASIC) chip, which is disposed on the RFID tag 35 and used for controlling the tag antenna 353 to receive and transmit data and read and write data in the tag memory module 355. In an embodiment of the present invention, the RFID tag 35 is a passive RFID tag, and the tag antenna 353 in the RFID tag 35 generates a current due to an electromagnetic induction effect by utilizing a magnetic field formed by a current passing through the RFID antenna 21 of the RFID reader 20 to drive the RFID chip 351 and the tag memory module 355 to operate.

With reference to fig. 3, when the host device 10 intends to execute a parameter setting process for a plurality of electronic devices 30, first, in step S601, the host device 10 generates at least one setting data 111 through operation of a setting unit (e.g., a programmable setting interface) 11, the setting data 111 is transmitted to each electronic device 30 through the RFID antenna 21 of the RFID reader 20, at this time, each electronic device 30 may also be in an unpowered state, and then the RFID chip 351 in the RFID tag 35 of the electronic device 30 receives the setting data 111 through the tag antenna 353 and stores the setting data 111 in the tag memory module 355. In step S602, when the electronic device 30 is changed from the unpowered state to a powered state, the control module 31 of the electronic device 30 actively reads the setting data 111 from the tag memory module 355 of the RFID tag 35, stores the setting data 111 in the memory area 310, and sets at least one parameter according to the setting data 111, for example: operating parameters of the control module 31 when operating. In step S603, after the control module 31 of the electronic device 30 completes setting the parameters, a setting result 311 is generated, the setting result 311 is transmitted back to the host device 10 via the RFID tag 35 and the RFID reader/writer 20, and the host device 10 knows that the parameters of the electronic device 30 have been set according to the setting result 311.

As mentioned above, the operating system 100 of the present invention uses the tag memory module 355 of the RFID tag 35 as a data exchange medium, so that the setting data 111 of the parameters to be set by the host device 10 can be pre-stored in the tag memory module 355 before the electronic device 30 is powered on, and after the electronic device 30 is powered on, the control module 31 will actively obtain the setting data 111 from the tag memory module 355 of the RFID tag 35 to execute the parameter setting procedure. In this way, the operating system 100 of the present invention can complete the parameter setting operation of a large number of electronic devices 30 in a very short time by RF wireless without waiting for the electronic devices 30 to be powered on when executing the parameter setting process, so as to effectively solve the problem that the existing industrial control electronic devices 30 consume labor and time in parameter setting.

Please refer to fig. 4, which is a flowchart illustrating a data transmission method according to another embodiment of the operating method of the present invention. After the electronic device 30 completes the parameter setting, the control module 31 will perform operations according to the set parameter conditions, and the host device 10 can perform command operations on at least one electronic device 30 being powered on. As shown in fig. 4, when the host device 10 intends to execute the command operation flow on the electronic device 30 being powered on, first, in step S611, the host device 10 transmits at least one control command 113 to the electronic device 30 via the RFID reader 20, and then the RFID chip 351 in the RFID tag 35 of the electronic device 30 receives the control command 113 via the tag antenna 353 and temporarily stores the control command 113 in the tag memory module 355. In step S612, the control module 31 of the electronic device 30 actively reads the control command 113 from the tag memory module 355 of the RFID tag 35, and executes a command operation according to the control command 113. In step S613, after the control module 31 of the electronic device 30 completes the command operation, a response signal 313 is generated, the response signal 313 is transmitted back to the host device 10 via the RFID tag 35 and the RFID reader/writer 20, and the host device 10 knows that the electronic device 30 has completed the command operation through the response signal 313.

Furthermore, the operating system 100 of the present invention can exchange the setting data 111 and the control command 113 between the host device 10 and the electronic device 30 by using the RFID tag 35, and can exchange data (such as operation history data or alarm data) related to operations of the electronic devices 30, so as to save a lot of manpower and time for exchanging data of the electronic devices 30.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. An operating system for performing parameter setting on a plurality of electronic devices, comprising:

each electronic device comprises a control module and an RFID volume label, wherein the RFID volume label is connected with the control module through a transmission line and comprises a volume label antenna, a volume label memory module and an RFID chip, and the RFID chip is respectively connected with the volume label antenna and the volume label memory module; and

the host equipment is connected with an RFID reader-writer;

when the electronic device is switched from the non-powered state to the powered state, the control module actively reads the setting data from the tag memory module of the RFID tag and sets at least one parameter according to the setting data, and the control module generates a setting result which is transmitted back to the host device through the RFID tag and the RFID reader-writer.

2. The operating system according to claim 1, wherein the host device includes a setting unit, and the host device generates the setting data through an operation of the setting unit.

3. The operating system of claim 1, wherein the transmission line is an I2C transmission line or an SPI transmission line.

4. The operating system of claim 1, wherein the control module comprises a memory area, and the setting data read by the control module from the tag memory module is stored in the memory area.

5. The operating system according to claim 1, wherein when the electronic device is operating in the power-on state, the host device transmits at least one control command to the electronic device via the RFID reader/writer, the electronic device receives the control command via the tag antenna of the RFID tag and temporarily stores the control command in the tag memory module, the control module reads the control command from the tag memory module of the RFID tag, executes a command operation according to the control command, and generates a response signal after the command operation is executed, and the response signal is transmitted back to the host device via the RFID tag and the RFID reader/writer.

6. An operation method for executing parameter setting for a plurality of electronic devices is characterized in that the operation method is applied to an operation system, the operation system comprises a host device and a plurality of electronic devices, each electronic device comprises a control module and an RFID tag, the RFID tag is connected with the control module and comprises a tag antenna, a tag memory module and an RFID chip, the RFID chip is respectively connected with the tag antenna and the tag memory module, and the operation method comprises the following steps:

when each electronic device is in an unpowered state, the host device transmits at least one set datum to each electronic device through the RFID reader;

enabling a volume label antenna of an RFID volume label of the electronic equipment to receive the setting data and store the setting data to a volume label memory module;

operating the electronic device to change from the unpowered state to a powered state;

enabling a control module of the electronic equipment to actively read the setting data from a volume label memory module of the RFID volume label and setting at least one parameter according to the setting data;

enabling the control module of the electronic equipment to generate a setting result after the parameters are set; and

and returning the setting result to the host equipment through the RFID volume label and the RFID reader-writer.

7. The operating method as claimed in claim 6, wherein the control module includes a memory area, and the setting data read by the control module from the tag memory module is stored in the memory area.

8. The operating method of claim 6, further comprising the steps of, when the electronic device is operating in the powered-up state:

enabling the host device to transmit at least one control instruction to the electronic device through the RFID reader-writer;

enabling the electronic equipment to receive the control instruction through the volume label antenna of the RFID volume label and temporarily store the control instruction into the volume label memory module;

the control module is enabled to read the control instruction from the volume label memory module of the RFID volume label;

enabling the control module of the electronic equipment to execute an instruction operation according to the control instruction and generating a response signal after the instruction operation is executed; and

and returning the response signal to the host equipment through the RFID volume label and the RFID reader-writer.