WO2021068377A1 - Method for automatically acquiring electroplating parameters - Google Patents

Abstract

The present invention belongs to the technical field of circuit board processing. Provided is a method for automatically acquiring electroplating parameters. The method comprises the following steps: S1, by means of automatically capturing ERP data, directly generating a file number, a production size, an electroplating area, a copper thickness requirement, and line width and line distance parameters; and S2, by means of automatic calculation, obtaining a required electroplating density and electroplating time, and automatically generating a production file number. According to the present invention, by means of automatically identifying and acquiring ERP parameters, automatic calculation is carried out according to a given electroplating standard to obtain all parameters required for electroplating, and an electroplating material number is automatically produced, such that the problem of a person inputting incorrect parameters can be effectively solved; and by means of the method for automatically acquiring electroplating parameters, the requirement for the management and control of a production process is low, such that a poor situation caused by the inappropriate management and control of production parameters can be effectively improved.

Description

Method for automatically acquiring electroplating parameters Technical field

The invention belongs to the technical field of circuit board processing, and specifically relates to a method for automatically acquiring electroplating parameters.

Background technique

In the prior art, the electroplating operation of the circuit board mainly involves the electroplating personnel manually inputting the electroplating equipment program according to the MI instruction data. This operation is all manually input by the operator. It is easy to input errors during the operation and cause the product to be abnormal. Foolproof processing cannot be performed during the input process, and abnormalities can only be discovered when the product is completed.

At the same time, for the detection of input data, it is mainly through two-person operation to check and confirm each other to avoid input errors. This method causes a great waste of labor costs, and is not lean, and requires high personnel skills during the operation.

technical problem

The prior art methods cause a great waste of labor costs, are not lean, and have high requirements on personnel skills in the operation process.

Technical solutions

In view of this, the present invention provides a method for automatically acquiring electroplating parameters. The present invention overcomes the problem of operator input errors during manual input during electroplating processing, realizes full automation of electroplating parameter input, and reduces the skill requirements of operators.

The technical scheme of the present invention is:

A method for automatically acquiring electroplating parameters includes the following steps:

S1. Through automatic capture of ERP data, directly generate file number, production size, electroplating area, copper thickness requirements, line width and line spacing parameters; automatically identify production material numbers, and call production parameters from ERP;

S2. Through automatic calculation, the required plating density and plating time are obtained, and the production file number is automatically generated;

Including according to the ERP plating area DM ² , converted to ft ² , which is convenient for the plating procedure to test the plate. According to the parameters of ERP plating copper thickness um and line width line spacing mil, the current density ASF and plating time min are automatically analyzed according to the given plating standard, and the plating file number is automatically produced.

Further, in step S1, the electroplating production parameters are automatically captured by ERP data, and the required parameters are automatically calculated by formulas, and the production file number is automatically generated.

Further, in step S2, the electroplating density and electroplating time parameters are obtained by calculating data automatically captured on the ERP and calculated by a specific formula.

Further, after the required parameters are captured and calculated, the file number is automatically produced and saved automatically.

In the present invention, all parameters do not need to be manually input, so as to avoid product abnormalities caused by personnel input errors. The invention automatically recognizes and acquires ERP parameters, performs automatic calculations based on the given electroplating standards, and obtains all the parameters required for electroplating, and automatically produces electroplating material numbers, which can effectively solve the problem of personnel inputting parameter errors; automatically through electroplating parameters The acquisition method has lower requirements for the control of the production process, which can effectively improve the defects caused by improper control of production parameters.

The present invention also includes testing the calculation result of the captured data, which specifically includes the following steps:

(1) The client initializes static data, the static data includes the use of user permissions and the upper limit of the data volume of the use data;

(2) The client initiates a dynamic event, and the dynamic event includes a use instruction;

(3) The client sets the dynamic event sequence mode: the dynamic event sequence mode corresponds to the processing steps or processing sequence of the dynamic event;

(4) The server uses the abnormal information and success information of dynamic events and static data to configure the server-side success template according to the above-mentioned dynamic event sequence mode;

(5) The client uses the abnormal information and success information of dynamic events and static data to configure the client success template according to the above-mentioned dynamic event sequence mode;

(6) The client sends a request to the server, performs data analysis based on the above dynamic events and static data, and interacts with the server to complete the above dynamic event sequence mode;

(7) The client and server respectively compare their analysis results with their respective success templates;

(8) The server side sends the template matching information to the client who made the above request;

(9) The client provides analysis and test results.

Further, the static data also includes the type of the used data and the name of the data field.

Further, the dynamic event sequence mode also includes the processing times of the dynamic events therein.

Further, the dynamic event sequence mode is set in the form of a configuration file.

Further, the dynamic event sequence mode also includes a path mode of static data, and the path mode includes random selection, manual selection, and a combination of random selection and manual selection.

Through the test method of the present invention, the user can customize the test process and test content under the premise of automation. At the same time, the present invention also greatly improves the operating accuracy of the ERP system.

In the present invention, all the electroplating parameters are automatically captured on the ERP and the parameters are automatically calculated. All receipt sources are consistent with the MI data sources, and then the electroplating material numbers are automatically produced. During this operation, all the electroplating parameters are automatically executed by software. And record; this operation avoids personnel errors and effectively improves the abnormal copper thickness caused by the wrong parameters.

Beneficial effect

1. The method of the present invention effectively solves the problem of abnormal copper plating thickness caused by operator error;

2. The method of the present invention effectively solves the problem that the input of material number requires high personnel skills;

3. Using the method of the present invention to automatically produce electroplating parameters greatly improves electroplating production efficiency, eliminates abnormal electroplating parameters caused by operator errors, and improves the copper thickness of electroplating production.

The best mode of the present invention

A method for automatically acquiring electroplating parameters includes the following steps:

S1. Through automatic capture of ERP data, directly generate file number, production size, electroplating area, copper thickness requirements, line width and line spacing parameters; automatically identify production material numbers, and call production parameters from ERP;

S2. Through automatic calculation, the required plating density and plating time are obtained, and the production file number is automatically generated;

Including according to the ERP plating area DM ² , converted to ft ² , which is convenient for the plating procedure to test the plate. According to the parameters of ERP plating copper thickness um and line width line spacing mil, the current density ASF and plating time min are automatically analyzed according to the given plating standard, and the plating file number is automatically produced.

Further, in step S1, the electroplating production parameters are automatically captured by ERP data, and the required parameters are automatically calculated by formulas, and the production file number is automatically generated.

Further, in step S2, the electroplating density and electroplating time parameters are obtained by calculating data automatically captured on the ERP and calculated by a specific formula.

Further, after the required parameters are captured and calculated, the file number is automatically produced and saved automatically.

In the present invention, all parameters do not need to be manually input, so as to avoid product abnormalities caused by personnel input errors. The invention automatically recognizes and acquires ERP parameters, performs automatic calculations based on the given electroplating standards, and obtains all the parameters required for electroplating, and automatically produces electroplating material numbers, which can effectively solve the problem of personnel inputting parameter errors; automatically through electroplating parameters The acquisition method has lower requirements for the control of the production process, which can effectively improve the defects caused by improper control of production parameters.

The present invention also includes testing the calculation result of the captured data, which specifically includes the following steps:

(1) The client initializes static data, the static data includes the use of user permissions and the upper limit of the data volume of the use data;

(2) The client initiates a dynamic event, and the dynamic event includes a use instruction;

(3) The client sets the dynamic event sequence mode: the dynamic event sequence mode corresponds to the processing steps or processing sequence of the dynamic event;

(4) The server uses the abnormal information and success information of dynamic events and static data to configure the server-side success template according to the above-mentioned dynamic event sequence mode;

(5) The client uses the abnormal information and success information of dynamic events and static data to configure the client success template according to the above-mentioned dynamic event sequence mode;

(6) The client sends a request to the server, performs data analysis based on the above dynamic events and static data, and interacts with the server to complete the above dynamic event sequence mode;

(7) The client and server respectively compare their analysis results with their respective success templates;

(8) The server side sends the template matching information to the client who made the above request;

(9) The client provides analysis and test results.

Further, the static data also includes the type of the used data and the name of the data field.

Further, the dynamic event sequence mode also includes the processing times of the dynamic events therein.

Further, the dynamic event sequence mode is set in the form of a configuration file.

Further, the dynamic event sequence mode also includes a path mode of static data, and the path mode includes random selection, manual selection, and a combination of random selection and manual selection.

Embodiments of the present invention

The technical solutions of the present invention will be clearly and completely described below in conjunction with embodiments. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments.

Example 1

A method for automatically acquiring electroplating parameters includes the following steps:

S1. Through automatic capture of ERP data, directly generate file number, production size, electroplating area, copper thickness requirements, line width and line spacing parameters; automatically identify production material numbers, and call production parameters from ERP;

S2. Through automatic calculation, the required plating density and plating time are obtained, and the production file number is automatically generated;

Including according to the ERP plating area DM ² , converted to ft ² , which is convenient for the plating procedure to test the plate. According to the parameters of ERP plating copper thickness um and line width line spacing mil, the current density ASF and plating time min are automatically analyzed according to the given plating standard, and the plating file number is automatically produced.

Further, in step S1, the electroplating production parameters are automatically captured by ERP data, and the required parameters are automatically calculated by formulas, and the production file number is automatically generated.

Further, in step S2, the electroplating density and electroplating time parameters are obtained by calculating data automatically captured on the ERP and calculated by a specific formula.

Further, after the required parameters are captured and calculated, the file number is automatically produced and saved automatically.

In the present invention, all parameters do not need to be manually input, so as to avoid product abnormalities caused by personnel input errors. The invention automatically recognizes and acquires ERP parameters, performs automatic calculations based on the given electroplating standards, and obtains all the parameters required for electroplating, and automatically produces electroplating material numbers, which can effectively solve the problem of personnel inputting parameter errors; automatically through electroplating parameters The acquisition method has lower requirements for the control of the production process, which can effectively improve the defects caused by improper control of production parameters.

The present invention also includes testing the calculation result of the captured data, which specifically includes the following steps:

(1) The client initializes static data, the static data includes the use of user permissions and the upper limit of the data volume of the use data;

(2) The client initiates a dynamic event, and the dynamic event includes a use instruction;

(3) The client sets the dynamic event sequence mode: the dynamic event sequence mode corresponds to the processing steps or processing sequence of the dynamic event;

(4) The server uses the abnormal information and success information of dynamic events and static data to configure the server-side success template according to the above-mentioned dynamic event sequence mode;

(5) The client uses the abnormal information and success information of dynamic events and static data to configure the client success template according to the above-mentioned dynamic event sequence mode;

(6) The client sends a request to the server, performs data analysis based on the above dynamic events and static data, and interacts with the server to complete the above dynamic event sequence mode;

(7) The client and server respectively compare their analysis results with their respective success templates;

(8) The server side sends the template matching information to the client who made the above request;

(9) The client provides analysis and test results.

Further, the static data also includes the type of the used data and the name of the data field.

Further, the dynamic event sequence mode also includes the processing times of the dynamic events therein.

Further, the dynamic event sequence mode is set in the form of a configuration file.

Further, the dynamic event sequence mode also includes a path mode of static data, and the path mode includes random selection, manual selection, and a combination of random selection and manual selection.

In the present invention, all the electroplating parameters are automatically captured on the ERP and the parameters are automatically calculated. All receipt sources are consistent with the MI data sources, and then the electroplating material numbers are automatically produced. During this operation, all the electroplating parameters are automatically executed by software. And record; this operation avoids personnel errors and effectively improves the abnormal copper thickness caused by the wrong parameters.

For those skilled in the art, it is obvious that the present invention is not limited to the details of the above exemplary embodiments, and the present invention can be implemented in other specific forms without departing from the spirit or basic characteristics of the present invention. Therefore, from any point of view, the embodiments should be regarded as exemplary and non-limiting. The scope of the present invention is defined by the appended claims rather than the above description, and therefore it is intended to fall within the claims. All changes within the meaning and scope of the equivalent elements of are included in the present invention.

In addition, it should be understood that although this specification is described in accordance with the implementation manners, not each implementation manner only includes an independent technical solution. This narration in the specification is only for the sake of clarity, and those skilled in the art should regard the specification as a whole The technical solutions in the various embodiments can also be appropriately combined to form other implementations that can be understood by those skilled in the art. It should be noted that all technical features not described in detail in the present invention can be implemented by any existing technology in the field.

Industrial applicability

The invention avoids operator errors and effectively improves the problem of abnormal copper thickness caused by wrong parameter input.

Claims (9)

1. A method for automatically acquiring electroplating parameters is characterized in that it comprises the following steps:

   S1. Directly generate file number, production size, electroplating area, copper thickness requirements, line width and line spacing parameters by automatically grabbing ERP data;

   S2. Through automatic calculation, the required plating density and plating time are obtained, and the production file number is automatically generated.
2. The method for automatically acquiring electroplating parameters according to claim 1, wherein in step S1, the electroplating production parameters are automatically captured by ERP data, and the required parameters are automatically calculated by formulas, and the production file number is automatically generated.
3. The method for automatically obtaining electroplating parameters according to claim 1, wherein in step S2, the electroplating density and electroplating time parameters are obtained by calculating data automatically captured on ERP and calculated by a specific formula.
4. According to the method for automatically obtaining electroplating parameters according to claim 2, after the required parameters are captured and calculated, the file number is automatically produced and saved automatically.
5. The method for automatically acquiring electroplating parameters according to claim 1, characterized in that it further comprises testing the calculation result of the captured data, which specifically includes the following steps:

   (1) The client initializes static data, the static data includes the use of user permissions and the upper limit of the data volume of the use data;

   (2) The client initializes a dynamic event, and the dynamic event includes a use instruction;

   (3) The client sets the dynamic event sequence mode: the dynamic event sequence mode corresponds to the processing steps or processing sequence of the dynamic event;

   (4) The server uses the abnormal information and success information of dynamic events and static data to configure the server-side success template according to the above-mentioned dynamic event sequence mode;

   (5) The client uses the abnormal information and success information of dynamic events and static data to configure the client success template according to the above-mentioned dynamic event sequence mode;

   (6) The client sends a request to the server, performs data analysis based on the above dynamic events and static data, and interacts with the server to complete the above dynamic event sequence mode;

   (7) The client and server respectively compare their analysis results with their respective success templates;

   (8) The server side sends the template matching information to the client who made the above request;

   (9) The client provides analysis and test results.
6. The method for automatically acquiring electroplating parameters according to claim 5, wherein the static data further includes the type of the used data and the name of the data field.
7. The method for automatically acquiring electroplating parameters according to claim 5, wherein the dynamic event sequence mode further includes the processing times of the dynamic event therein.
8. The method for automatically acquiring electroplating parameters according to claim 5, wherein the dynamic event sequence mode is set in the form of a configuration file.
9. The method for automatically acquiring electroplating parameters according to claim 5, wherein the dynamic event sequence mode further includes a path mode of static data, and the path mode includes random selection, manual selection, and a combination of random selection and manual selection. Three kinds.