CN113326219B - Burning method based on burning system and computer storage medium - Google Patents

Abstract

The application provides a communication method based on a burning system, a burning method and a computer storage medium. The communication method based on the burning system comprises the following steps: sending communication protocol version request information to the automation system so that the automation system returns first highest version information of the communication protocol based on the communication protocol version request information; acquiring second highest version information of a communication protocol compatible with the communication protocol; and acquiring the target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information. According to the method and the device, the communication protocol version which can be compatible with the burning system and the automatic system at the same time is selected, so that the burning system and the automatic system can be separately deployed conveniently, and the automatic system is allowed to be connected with the burning system quickly.

Description

Burning method based on burning system and computer storage medium

Technical Field

The present application relates to the field of data burning technologies, and in particular, to a communication method based on a burning system, a burning method, and a computer storage medium.

Background

The burning system is a system capable of independently completing the operation under the condition of manually picking and placing the chip, but along with the increase of labor cost and the urgent requirement of a customer on the improvement of production efficiency, the automatic system is also brought into the burning operation range. The automatic system provides a mechanical arm, the motion control function is used for conveying the chip to the burning device from the feeding disc, and the automatic system divides the chip to an OK station or an NG station according to the burning result after the burning device finishes burning. Different automatic system operation methods are different, so that the burning system can be compatible with the automatic systems of various automatic manufacturers, more selectivity is provided for customers, a communication mode of two systems needs to be provided, and the two systems can communicate normally and meet production requirements.

However, other burn equipment suppliers have not seen to install automated systems that are not produced by themselves. Nor have they found access to standardizing communication protocols for running third party automation systems.

Disclosure of Invention

The application provides a communication method based on a burning system, a burning method and a computer storage medium.

The application provides a communication method based on a burning system, which comprises the following steps:

sending communication protocol version request information to an automation system to enable the automation system to return first highest version information of a communication protocol based on the communication protocol version request information;

acquiring second highest version information of a communication protocol compatible with the communication protocol;

and acquiring target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information.

Wherein the obtaining of the target version information by using the first highest version information and the second highest version information includes:

comparing the communication protocol version corresponding to the first highest version information with the communication protocol version corresponding to the second highest version information;

taking the second highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is higher than the communication protocol version corresponding to the second highest version information;

taking the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is lower than the communication protocol version corresponding to the second highest version information;

and taking the second highest version information or the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is the same as the communication protocol version corresponding to the second highest version information.

Wherein the communication protocol version request information and/or the first highest version information is transmitted in the form of a protocol packet, wherein the protocol packet at least comprises a packet flag, a packet function, a packet data length, a packet data, and a packet inspection;

the packet flag is used for indicating the information flag of the protocol packet;

the packet function is used for indicating the data function carried by the protocol packet;

the packet data length is used for indicating the length of the packet data;

the packet data is used for indicating actual transmission information of the protocol packet, and comprises the communication protocol version request information and/or the first highest version information;

and the packet inspection is used for indicating inspection information of the protocol packet.

Wherein the communication method further comprises:

sending a first protocol packet containing the communication protocol version request information to the automation system;

acquiring a second protocol packet responded by the automation system based on the first protocol packet, wherein the packet mark of the second protocol packet is opposite to the packet mark of the first protocol packet;

checking whether a packet check of the second protocol packet is identical to a packet check of the first protocol packet;

if so, confirming that the transmission of the first protocol packet containing the communication protocol version request information is successful;

if not, confirming that the transmission of the first protocol packet containing the communication protocol version request information fails.

The application also provides another burning method based on the burning system, and the burning method comprises the following steps:

obtaining preselected burning information from an automatic system, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat;

acquiring actual burning information of the device, wherein the actual burning information comprises actual burning equipment and an actual burning seat;

acquiring target burning information by utilizing the preselected burning information and the actual burning information, wherein the target burning information comprises target burning equipment and a target burning seat;

sending the target burning information to the automatic system so that the automatic system places a chip according to the target burning information;

and burning the target burning equipment and the chip on the target burning seat corresponding to the target burning information.

The application also provides a burning method, which comprises the following steps:

the burning system establishes communication with the automatic system by adopting the communication method based on the burning system;

the burning system sends burning information request information to the automatic system;

the automation returns preselected burning information to the burning system based on the burning information request information, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat;

the burning system scans actual burning information of the burning system, wherein the actual burning information comprises actual burning equipment and an actual burning seat;

the burning system acquires target burning information by utilizing the preselected burning information and the actual burning information and sends the target burning information to the automatic system, wherein the target burning information comprises target burning equipment and a target burning seat;

the automatic system places a chip according to the target burning information;

and the burning system burns the target burning equipment and the chip on the target burning seat which are placed corresponding to the target burning information.

The present application further provides a computer storage medium for storing program data, which when executed by a processor, is used to implement the communication method based on a burning system as described above, and/or the burning method as described above.

The beneficial effect of this application is: the burning system sends communication protocol version request information to the automatic system so that the automatic system returns first highest version information of the communication protocol based on the communication protocol version request information; acquiring second highest version information of a communication protocol compatible with the communication protocol; and acquiring the target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information. According to the method and the device, the communication protocol version which can be compatible with the burning system and the automatic system at the same time is selected, so that the burning system and the automatic system can be separately deployed conveniently, and the automatic system is allowed to be connected with the burning system quickly.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts. Wherein:

FIG. 1 is a flowchart illustrating an embodiment of a communication method based on a burning system according to the present disclosure;

FIG. 2 is an interaction diagram of a burn system and an automation system according to an embodiment of the present disclosure;

FIG. 3 is a flowchart illustrating a burning method based on a burning system according to an embodiment of the present disclosure;

FIG. 4 is a schematic flowchart illustrating a recording method according to another embodiment of the present application;

FIG. 5 is a schematic diagram illustrating an embodiment of a recording system according to the present application;

FIG. 6 is a schematic structural diagram of an embodiment of a computer storage medium provided in the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The present application provides a communication method based on a burning system, and please refer to fig. 1 and fig. 2 specifically, where fig. 1 is a schematic flow diagram of an embodiment of the communication method based on the burning system provided in the present application, and fig. 2 is an interaction diagram of an embodiment of the burning system and an automation system provided in the present application.

The communication method is applied to a burning system, wherein the burning system of the embodiment of the application specifically comprises a plurality of burning devices, each burning device is provided with a plurality of seats, so that a plurality of chips can be simultaneously burned, and one chip needs one seat. If a certain seat or a certain burning device cannot be used, the chip placed in the seat or the certain burning device cannot be burned. In addition, the automation system of the embodiment of the application at least comprises a mechanical arm, and the chip can be automatically placed in the burning equipment and the seat of the burning system through the mechanical arm.

As shown in fig. 1, the communication method based on the burning system in the embodiment of the present application specifically includes the following steps:

step S101: the communication protocol version request information is sent to the automation system to cause the automation system to return first highest version information of the communication protocol based on the communication protocol version request information.

In consideration of the problems of independent development and independent deployment of the burning system and the automation system, the versions of the communication protocols adopted by the burning system and the automation system are different, and therefore the burning system of the embodiment of the application needs to negotiate and confirm the communication versions with the automation system.

Specifically, in conjunction with the interaction diagram described in fig. 2, the burning system sends a communication protocol version request message to the automation system, and requests the automation system to notify the communication protocol support version. Because the communication version has downward compatibility, namely, after a program or a class library is updated to a newer version in a computer, a document or a system created by using an old version program can still be normally operated or used, or under the condition that a program developed on the basis of the old version class library can still be normally compiled and run, the burning system can request to acquire the highest version information of the communication protocol of the automation system.

The automation system returns the current highest version of the supported communication protocol according to the request information of the version of the communication protocol, and the highest version of the communication protocol is reflected through the first highest version information of the communication protocol.

It should be noted that the information in the embodiments of the present application is transmitted in the form of a protocol packet, and includes communication protocol version request information and/or highest version information. The protocol packet definition provided in the present application refers specifically to the following table:

bag label	Bag function	Packet data length	Packet data	Packet verification
					2 bytes	1 byte	1 byte	N bytes	1 byte

The following describes the components of a protocol packet:

packet Flag (PFLAG): occupying 2 bytes and indicating the information mark of the protocol packet; for example, the protocol packet for transmitting data from the burn system to the automation system is fixed to two characters of SA, and the protocol packet for transmitting data from the automation system to the burn system is fixed to two characters of AS.

Packet function (PDU): occupying 1 byte, indicating the data function carried by the protocol packet, and the data length and the byte number carried by different packet functions are different.

Packet data length (PLEN): the length of the packet data is N, N ═ 0, which indicates that the packet data occupies N bytes.

Packet Data (PDATA): the data transmission protocol packet occupies N bytes and indicates actual transmission data of the protocol packet, and the actual data required to be transmitted by different packet functions are different.

Packet check (PCRC): the method comprises the following steps of occupying 1 byte, indicating the check information of a protocol packet, and specifically performing CRC (cyclic redundancy check) on the protocol packet through a CRC algorithm, wherein the CRC is the most frequently adopted check mode in data communication; the packet inspection of the embodiments of the present application may be the accumulated sum of all bytes from the start of the packet flag to the end of the packet data.

Specifically, the packet check part of the protocol packet is to ensure that if data changes in the middle of communication, the data can be perceived by a receiver, so as to report an error or cause exception handling, thereby ensuring the robustness of the burning system and the automation system.

Some of the definitions of the function codes mentioned in the package functions provided in the present application are listed below, and refer to the following table in conjunction with fig. 2:

in addition, in the communication protocol of the present application, whether the automation system or the burning system initiates a communication packet, when the other side receives the communication packet, an ACK (Acknowledge character) packet, i.e., a response packet, is required.

For a definition description of the data field composition of the response packet provided in the present application, refer to the following table:

the following describes the interaction process of the burning system and the automation system by taking 0x62 function code as an example and combining the above data field definition:

the communication packet mark of the automatic system sent by the burning system is SA, and the two characters in the memory are represented as 0x53 and 0x 41; the communication packet function is 0x62, the packet data occupies one byte, but the communication packet has no data, and the content of the packet data length is 0x 00; the communication packet has no packet data, and the packet data is followed by a CRC check code of 1 byte, assuming that the CRC check code is calculated to be 0A by a CRC algorithm. In summary, the content of the whole communication packet sent by the burning system to the automation system is: 534162000A, where two characters occupy one byte, the communication packet transmits a total of 5 bytes, represented in memory as 0x53,0x41, 0x62, 0x00, 0x 0A.

And after receiving the communication packet, the automation system returns a response packet to the burning system. Wherein, the response packet flag is opposite to the communication packet flag, and therefore, the response packet flag of the automation system is AS, and the two characters are represented AS 0x41 and 0x53 in the memory; the response packet function is consistent with the communication packet function and is also 0x62, the packet data length is 1 byte, and the content is 0x 01; the 1-byte packet data represents an error code. The automatic system receives 5 bytes of data of the burning system under the normal interaction condition, the content of the previous 4 bytes of data can also obtain 0A according to the agreed CRC algorithm, and then the packet inspection content of the response packet is set to be 0x00, which indicates that the whole communication packet is not damaged in the transmission process; if corrupted, it is set to 0 xFF. And finally, the automatic system calculates a CRC value through a CRC algorithm and then sends the whole response packet to the burning system. In summary, the whole response packet can be expressed as: 415362010009, wherein 4153 is a packet flag, 62 is a function code, 01 indicates that the packet content occupies 1 byte, 00 is a packet content, indicates that the automation system correctly receives the 62 function packets sent by the burning system, i.e., the communication packets, and 09 is a CRC check value calculated by a CRC algorithm.

In addition, if the response packet is expressed as: 41536201FF0A, wherein 4153 is the packet flag, 62 is the function code, 01 indicates that the packet content occupies 1 byte, FF is the packet content, indicates that there is a problem in the verification value when the automation correctly receives the 62 function packet sent by the burning system. And 0A is a check value calculated by a CRC algorithm. At this point the burn system knows that the automation system received an erroneous 62 function packet and it may choose to resend 62 the function packet, or an alarm prompt, depending on the needs of the application.

When the 62 function packet is correctly received by the automation system, the automation system needs to send an E2 function packet to the burning system to inform the version number of the communication protocol supported by the automation system.

Specifically, the packet flag sent by the automation system to the burning system is AS, the two characters are represented AS 0x41 and 0x53 in the memory, the packet function code is 0xE2, the packet data length content is 0x02, and it is represented that the following content occupies 2 bytes. Wherein, two bytes in the packet content of the E2 function packet are respectively defined as: the first byte is the major version number and the second byte is the minor version number.

For example, assuming that the automation system supports a communication protocol version 1.3, the contents of the entire E2 feature package are: 4153E202010384 where 4153 is the packet flag and E2 is function code 02 indicating that the following packet data has 2 bytes, 01 is the major version number, 03 bits of minor version, combined to 1.3, and 84 is the CRC check value.

Correspondingly, after the burn system correctly receives the E2 function package, a response package also needs to be returned to the automation system, and the content of the response package is as follows: 5341E 2010089. Wherein, 5341 is two characters of packet identifier SA, E2 is the automatic system request function code received by the recording system, 01 is the packet data with 1 byte at the back, the content of the packet data is 00 indicates that the automatic system function packet received by the recording system has no error, and 89 is the check code.

It should be noted that, in the above-mentioned process of interacting with the automation system, the burning system controls the burning device to perform corresponding actions and/or feedback of the burning device, and in the process of interacting with the burning device, a specific communication protocol is required, and the burning device is temporarily incompatible with the burning devices of other manufacturers. Different burning systems in the market have differences in system architecture and expansibility. The burning system allows a plurality of burning devices to be controlled simultaneously, can be used as a server to be started up for a plurality of instances, controls the burning devices in a grouping mode, and has the expansion capability of communicating with a customer Manufacturing Execution System (MES) and an automation device. The technical scheme adopted by an automatic system manufacturer is simple and complex, and has different hardware processing capacities, so that when a protocol is designed, the adopted mode is as simple and reliable as possible, namely the length of a protocol packet of each communication is not too long, the possibility of expansion is reserved, in addition, the interactive command flow is also simple, and the coupling degree of the two systems is lower. The transmission of the physical medium through which the specific communication packet passes is not defined, and the network protocol is feasible through a serial port, a USB (universal serial bus) and needs to see the bottom layer selection of the automatic system.

Step S102: and acquiring second highest version information of the communication protocol compatible with the second highest version information.

The burning system obtains the communication protocol of the highest version compatible with the burning system.

Step S103: and acquiring the target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information.

The burning system compares the communication protocol version corresponding to the first highest version information with the communication protocol version corresponding to the second highest version information, namely compares the highest protocol version supported by the automation system with the highest protocol version supported by the burning system.

And under the condition that the highest protocol version supported by the automation system is 1.3 and is higher than the highest protocol version supported by the burning system, such as 1.2, the communication is carried out according to the communication protocol version of the burning system.

And under the condition that the highest protocol version supported by the automation system is 1.1, for example, and is lower than the highest protocol version supported by the burning system, for example, 1.1, the communication is carried out according to the communication protocol version of the automation system.

And under the condition that the highest protocol version supported by the automatic system is 1.2, for example, and is equal to the highest protocol version supported by the burning system, for example, 1.2, the communication is carried out according to the communication protocol version of the burning system or the automatic system.

The burning system automatically processes according to the obtained communication protocol version currently supported by the automatic system, and the highest communication protocol version compatible with both the automatic system and the burning system is adopted in principle, so that the automatic system and the burning system support more functions.

In the embodiment of the application, the burning system sends the communication protocol version request information to the automation system, so that the automation system returns the first highest version information of the communication protocol based on the communication protocol version request information; acquiring second highest version information of a communication protocol compatible with the communication protocol; and acquiring the target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information. According to the method and the device, the communication protocol version which can be compatible with the burning system and the automatic system at the same time is selected, so that the burning system and the automatic system can be conveniently separately deployed, and the automatic system is allowed to be connected with the burning system quickly; the embodiment of the application is simple and effective in the interaction between the burning system and the automatic system by providing an application protocol mode, has safety protection mechanisms such as CRC (cyclic redundancy check) values and the like, and is good in expansibility; based on the application protocol mode of the embodiment of the application, the burning system and the automatic system can be separately deployed, and a third party automatic system is allowed to be quickly accessed to the burning system.

Fig. 3 and fig. 2 are specific references, and fig. 3 is a schematic flow chart of an embodiment of a burning method based on a burning system provided in the present application.

It should be noted that before the burning step, the burning system may also establish communication with the automation system through the communication method of the foregoing embodiment, and the specific process is not described herein again.

As shown in fig. 3, the burning method based on the burning system of the embodiment of the present application specifically includes the following steps:

step S201: and acquiring preselected burning information from the automatic system, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat.

The burning system needs to request the automatic system to inform a user of enabling conditions of burning equipment and seats selected on an operation interface of the automatic system, and the enabling conditions are represented as pre-selected burning information.

Step S202: acquiring actual burning information of the device, wherein the actual burning information comprises actual burning equipment and an actual burning seat.

The burning system can scan and initialize the actually connected burning equipment and acquire the placement condition of the seat in the burning equipment to acquire the actually allowed enabling condition of the burning equipment and the seat, and the enabling condition is reflected as actual burning information.

Step S203: and acquiring target burning information by utilizing the preselected burning information and the actual burning information, wherein the target burning information comprises target burning equipment and a target burning seat.

The recording system utilizes the preselected recording information and the actual recording information to perform AND operation on the enabling condition of the recording system and the enabling condition provided by the automatic system, namely, the intersection of the preselected recording information and the actual recording information is calculated to obtain the final target recording information. The recording device and the seat position in the target recording information are both allowed to be set and operated by the recording system and the automation system, wherein the intersection of the preselected recording information and the actual recording information, that is, the process of the target recording information, is specifically shown in step 3 to step 7 in fig. 2.

For example, the recording system currently actually controls 2 recording devices, namely Site1 and Site2, wherein Site1 has 6 seats and Site2 has 4 seats. If the automatic system selects 8 bases of the Site1 as the using bases and does not enable the Site2, only 6 base positions in the Site1 allow automatic placement of chips through actual scanning and initialization of the burning system, and the burning system informs the automatic system of the result, namely only 6 base positions of the Site1 are recorded in target burning information, so that the phenomenon that the automatic system places the chips blindly to cause the chips not to be burned or fall out of burning equipment to cause chip loss is avoided.

Step S204: and sending the target burning information to an automatic system so that the automatic system places the chip according to the target burning information.

The automatic system updates the enabling conditions of the burning equipment and the seat recorded in the target burning information to an operation interface for displaying and informs a user. After the updating is completed, the automatic system further starts to place the chip into the enabling seat in the corresponding target burning device from the feeding position, and then the situation of placing the chip of the burning system can be actively informed. For example, seats 1-6 of Site1 have chips already placed.

When the remaining chips at the feeding position are not enough to be placed in all the enabled sockets, the burning system is informed of which enabled sockets are not placed with chips, for example, sockets 1-4 of Site1 are already placed with chips, and sockets 5 and 6 are not placed with chips. Therefore, the burning system can disable the corresponding seat without the chip according to the placement condition, thereby avoiding the following report error.

Step S205: and burning the target burning equipment and the chip on the target burning seat corresponding to the target burning information.

And the burning system starts to burn the chip on the enabling seat according to the chip placement information returned by the automatic system.

After the burning action is completed, the burning system can also inform the automatic system of the burning result, and the burning result specifically comprises the following information:

(1) the current recording result comes from which recording device, for example, Site 1.

(2) The seat enabling conditions of the current burning equipment, such as seats 1-4 of Site1, are enabled, and seats 5-6 are not enabled.

(3) Which of the enabled sockets are successfully burned, e.g., socket 1 and socket 2 are successfully burned, and socket 3 and socket 4 are failed to be burned.

(4) The error code and error information of the failed socket are recorded, for example, the error code of the socket 3 is-2, which indicates that the chip communication fails, and the error code of the socket 4 is-5, which indicates that the verification stage fails.

Furthermore, the automation system can also distinguish and place the chips in the corresponding burning equipment according to the returned burning results, the chips which are successfully burned are placed in the OK area, the chips which are unsuccessfully burned are placed in the NG area, and the statistical information on the operation interface is updated. Then, the automation system can also replace the chips in the NG area on the enabling seat for burning, and the burning task is formally finished until the number of the chips in the OK area reaches the number set by the user on the operation interface.

The present application further provides another recording-based method, and specifically refers to fig. 4 and fig. 2, where fig. 4 is a schematic flowchart of another embodiment of the recording method provided in the present application.

As shown in fig. 4, the burning method of the embodiment of the present application specifically includes the following steps:

step S301: the burning system establishes communication with the automatic system by adopting a communication method based on the burning system.

Step S302: the burning system sends burning information request information to the automatic system.

Step S303: and automatically returning preselected burning information to the burning system based on the burning information request information, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat.

Step S304: the burning system scans the actual burning information of the burning system, wherein the actual burning information comprises actual burning equipment and an actual burning seat.

Step S305: the burning system acquires target burning information by utilizing the preselected burning information and the actual burning information and sends the target burning information to the automatic system, wherein the target burning information comprises target burning equipment and a target burning seat.

Step S306: and the automatic system places the chip according to the target burning information.

Step S307: and the burning system burns the target burning equipment and the chip on the target burning seat which are arranged corresponding to the target burning information.

The contents of step S301 to step S307 in the embodiment of the present application are introduced in the above embodiments, and are not described herein again.

It will be understood by those skilled in the art that in the method of the present invention, the order of writing the steps does not imply a strict order of execution and any limitations on the implementation, and the specific order of execution of the steps should be determined by their function and possible inherent logic.

In order to implement the burning method based on the burning system and/or the communication method based on the burning system in the above embodiment, the present application further provides a burning system, and specifically refer to fig. 5, where fig. 5 is a schematic structural diagram of an embodiment of the burning system provided in the present application.

The burning system 400 of the embodiment of the present application includes a processor 41, a memory 42, an input/output device 43, and a bus 44.

The processor 41, the memory 42, and the input/output device 43 are respectively connected to the bus 44, the memory 42 stores program data, and the processor 41 is configured to execute the program data to implement the communication method and/or the burning method according to the above embodiments.

In the present embodiment, the processor 41 may also be referred to as a CPU (Central Processing Unit). The processor 41 may be an integrated circuit chip having signal processing capabilities. The processor 41 may also be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor 41 may be any conventional processor or the like.

The present application further provides a computer storage medium, as shown in fig. 6, the computer storage medium 500 is used to store program data 51, and when the program data 51 is executed by the processor, the communication method and/or the burning method as described in the above embodiments are implemented.

The present application further provides a computer program product, wherein the computer program product includes a computer program operable to cause a computer to execute the communication method and/or the burning method according to the embodiments of the present application. The computer program product may be a software installation package.

The communication method and/or the burning method according to the above embodiments of the present application may be stored in a device, for example, a computer readable storage medium, when the communication method and/or the burning method is implemented in the form of a software functional unit and sold or used as an independent product. Based on such understanding, the technical solution of the present application may be substantially implemented or contributed by the prior art, or all or part of the technical solution may be embodied in a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, and various media capable of storing program codes.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims (10)

1. A burning method based on a burning system is characterized in that the burning method comprises the following steps:

obtaining preselected burning information from an automatic system, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat;

acquiring actual burning information of the device, wherein the actual burning information comprises actual burning equipment and an actual burning seat;

acquiring target burning information by utilizing the preselected burning information and the actual burning information, wherein the target burning information comprises target burning equipment and a target burning seat;

sending the target burning information to the automatic system so that the automatic system places a chip according to the target burning information;

and burning the target burning equipment and the chip on the target burning seat corresponding to the target burning information.

2. The burning method based on the burning system as claimed in claim 1, wherein the burning method further comprises:

communicating with the automation system by adopting a communication method based on a burning system;

the communication method based on the burning system comprises the following steps:

sending communication protocol version request information to an automation system to enable the automation system to return first highest version information of a communication protocol based on the communication protocol version request information;

acquiring second highest version information of a communication protocol compatible with the communication protocol;

and acquiring target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information.

3. The burning method based on burning system as claimed in claim 2,

the obtaining of the target version information by using the first highest version information and the second highest version information includes:

comparing the communication protocol version corresponding to the first highest version information with the communication protocol version corresponding to the second highest version information;

taking the second highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is higher than the communication protocol version corresponding to the second highest version information;

taking the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is lower than the communication protocol version corresponding to the second highest version information;

and taking the second highest version information or the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is the same as the communication protocol version corresponding to the second highest version information.

4. The burning method based on burning system as claimed in claim 3,

the communication protocol version request information and/or the first highest version information are transmitted in a protocol packet mode, wherein the protocol packet at least comprises a packet mark, a packet function, a packet data length, a packet data and a packet inspection;

the packet flag is used for indicating the information flag of the protocol packet;

the packet function is used for indicating the data function carried by the protocol packet;

the packet data length is used for indicating the length of the packet data;

the packet data is used for indicating actual transmission information of the protocol packet, and comprises the communication protocol version request information and/or the first highest version information;

and the packet inspection is used for indicating inspection information of the protocol packet.

5. The burning method based on the burning system as claimed in claim 4, wherein the communication method further comprises:

sending a first protocol packet containing the communication protocol version request information to the automation system;

acquiring a second protocol packet responded by the automation system based on the first protocol packet, wherein the packet mark of the second protocol packet is opposite to the packet mark of the first protocol packet;

checking whether a packet check of the second protocol packet is identical to a packet check of the first protocol packet;

if so, confirming that the transmission of the first protocol packet containing the communication protocol version request information is successful;

if not, confirming that the transmission of the first protocol packet containing the communication protocol version request information fails.

6. The burning method based on burning system as claimed in claim 1,

the burning of the chip placed on the target burning device corresponding to the target burning information and the target burning seat thereof comprises the following steps:

obtaining chip placement information returned by the automatic system;

and burning the target burning equipment and the chip on the target burning seat corresponding to the target burning information based on the chip placement information.

7. The burning method based on burning system as claimed in claim 1 or 6,

after the burning is performed on the target burning device and the chip on the target burning seat thereof corresponding to the target burning information, the burning method further comprises the following steps:

returning burning result information to the automatic system so that the automatic system places the chip in a burning success area and a burning failure area according to the burning result information, and/or relocates the chip with the burning failure to a target burning device and a target burning seat corresponding to the target burning information according to the burning result information;

and continuing to burn the target burning equipment and the target burning seat which are relocated to the target burning equipment corresponding to the target burning information.

8. A burning method is characterized by comprising the following steps:

the burning system establishes communication with the automatic system by adopting a communication method based on the burning system;

the burning system sends burning information request information to the automatic system;

the automation returns preselected burning information to the burning system based on the burning information request information, wherein the preselected burning information comprises preselected burning equipment and a preselected burning seat;

the burning system scans actual burning information of the burning system, wherein the actual burning information comprises actual burning equipment and an actual burning seat;

the burning system acquires target burning information by utilizing the preselected burning information and the actual burning information and sends the target burning information to the automatic system, wherein the target burning information comprises target burning equipment and a target burning seat;

the automatic system places a chip according to the target burning information;

the burning system burns the target burning equipment and the chip on the target burning seat corresponding to the target burning information;

the communication method based on the burning system comprises the following steps:

sending communication protocol version request information to an automation system to enable the automation system to return first highest version information of a communication protocol based on the communication protocol version request information;

acquiring second highest version information of a communication protocol compatible with the communication protocol;

and acquiring target version information by using the first highest version information and the second highest version information, and sending the target version information to the automation system so as to communicate with the automation system through a communication protocol corresponding to the target version information.

9. The burning method of claim 8, wherein the obtaining target version information using the first highest version information and the second highest version information comprises:

comparing the communication protocol version corresponding to the first highest version information with the communication protocol version corresponding to the second highest version information;

taking the second highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is higher than the communication protocol version corresponding to the second highest version information;

taking the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is lower than the communication protocol version corresponding to the second highest version information;

and taking the second highest version information or the first highest version information as the target version information under the condition that the communication protocol version corresponding to the first highest version information is the same as the communication protocol version corresponding to the second highest version information.

10. A computer storage medium for storing program data, wherein the program data when executed by a processor is used to implement the burning method based on the burning system as claimed in any one of claims 1 to 7 or the burning method as claimed in any one of claims 8 to 9.

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