CN108021761A - A kind of MEMS paster antennas quick response integrated design system - Google Patents
A kind of MEMS paster antennas quick response integrated design system Download PDFInfo
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Abstract
The invention discloses a kind of MEMS paster antennas quick response integrated design system, including 5 MEMS paster antenna demand analyses subsystem, design objective management subsystem, design subsystem, database subsystem and system management subsystem parts, demand analysis subsystem is used for quick response and analysis antenna requirements, decomposes Antenna Design index;Design objective management subsystem is used for the design result for formulating Antenna Design task, design Storage procedural information and renewal;Design subsystem is used to generate the conceptual design of MEMS paster antennas, scale effect analysis and Electrical Analysis as a result, storage Antenna Design data;Database subsystem is used to storing and issuing Antenna Design task template, antenna model, dielectric material, encapsulating material and antenna analysis post processing template;System management subsystem is used for the communication for controlling each subsystem and System Privileges use.The present invention solves the demand of MEMS paster antenna rapid response designs, available for MEMS paster antennas Efficient Development and improves design.
Description
Technical field
The present invention relates to a kind of information processing technology, more particularly to a kind of MEMS paster antennas quick response Integrated design system
System.
Background technology
Microstrip antenna structure is simple, and deployment is flexible, can be widely applied to the fields such as military, medical treatment, consumer electronics and Internet of Things
Close, be to promote information communication, accelerate society's industrialization and the important foundation element of fusion is changed in informationization two.Present age computer aids in
Design correlation technique is designed with antenna product antenna Autocad of interest but traditional, and only partly to solve antenna each
The problem of a design phase, as Antenna Magus stress to set Antenna Design and modeling, HFSS, CST and FEKO etc. stresses electrically
It can analyze, although simple function is powerful, integrated level is low, contains only the design in antenna product design or project analysis portion
Point.Paster antenna quick response customer demand is not directed at present, and highly integrated system is analyzed in design.In addition, developing
" internet+" under the background of application and propulsion industry 4.0, MEMS paster antenna development rates are accelerated increasingly, which dictates that such
The necessary quick response customer demand of product development, shortens the construction cycle.
The content of the invention:
It is an object of the invention to provide a kind of MEMS paster antennas quick response integrated design system, tackles MEMS patches
Antenna Design quick response application demand, integrated efficient exploitation.
To achieve these goals, the technical solution of present aspect is:A kind of MEMS paster antennas quick response Integrated design
System, including MEMS paster antenna demand analyses subsystem, MEMS patch antenna design task managements subsystem, MEMS patches day
Line design subsystem, MEMS paster antennas database subsystem and MEMS patch antenna systems management subsystem;Wherein,
MEMS paster antenna demand analysis subsystems, for antenna usage scenario analyze, realize antenna use environment,
The demand informations such as point, working time, user type define, and obtain the functional circuit information of the MEMS paster antennas, decompose antenna
Electrically and mechanically performance indicator, be transmitted in MEMS patch antenna design task management subsystems, and to MEMS paster antenna numbers
According to storehouse subsystem transmitting antenna demand and index Design result;
MEMS patch antenna design task management subsystems, for receiving MEMS paster antenna demand analyses subsystem letter
Breath, the Antenna Design task confirmed to the transmission of MEMS patch antenna designs subsystem by requirement definition, storage MEMS patches day
The Conceptual Design of antenna concept design module transmission in line design subsystem, in MEMS patch antenna design subsystems
The scale effect analysis result of antenna scale effect analysis module transmission, the Electrical Analysis of MEMS patch antenna design subsystems
The Electrical Analysis of module transmission is as a result, monitoring MEMS patch antenna design processes;
MEMS patch antenna design subsystems, for generating MEMS paster antenna Conceptual Design results and scale effect
Analysis, Electrical Analysis are as a result, the MEMS paster antennas sent according to MEMS patch antenna design task managements subsystem are set
Meter task and design parameter, call MEMS paster antenna database subsystems in Antenna Design flow of task template, antenna mould
Type, dielectric material, encapsulating material, perform antenna electric performance and Mechanical Property Analysis, and to MEMS patch antenna design task pipes
Manage the design analysis result after subsystem transfer operation;
MEMS paster antenna database subsystems, for storing and being passed to MEMS patch antenna design task managements subsystem
Antennas design objective definition template, relevant antenna model, dielectric material, envelope are transmitted to MEMS patch antenna designs subsystem
Package material and antenna analysis post processing template, the final design knot of storage MEMS patch antenna design task managements subsystem extraction
Fruit;
MEMS patch antenna systems manage subsystem, for controlling the demand analysis of MEMS paster antenna MEMS paster antennas
System, MEMS patch antenna design task managements subsystem, MEMS patch antenna designs subsystem, MEMS paster antenna databases
Communication between subsystem and the system management subsystem, manages MEMS paster antenna quick response integrated design system users
Access right.
In conclusion MEMS paster antennas quick response integrated design system of the present invention provides MEMS paster antennas
Quick response integrated design system global function module and its application flow, be towards antenna industry MEMS paster antennas it is special
Door developing instrument, it is with strong points;And MEMS paster antennas quick response integrated design system of the present invention includes MEMS
Demand analysis, conceptual design, scale effect analysis and the Electrical Analysis of paster antenna, therefore integrated level of the present invention is high;In addition, this
The database subsystem for inventing the quick response integrated design system of the MEMS paster antennas is integrated with abundant Antenna Design
Flow of task template, antenna model, dielectric material storehouse, encapsulating material storehouse and antenna analysis post processing template, therefore the present invention set
It is higher to count efficiency.Therefore, the quick response integrated design system of MEMS paster antennas of the present invention can effectively shorten such
In the product design cycle, enhance product performance, reduce cost.
Brief description of the drawings:
Attached drawing 1 forms structure diagram for the MEMS paster antenna quick responses integrated design system of the present invention;
Fig. 2 is the composition structure diagram of the MEMS paster antenna demand analysis subsystems of the present invention;
Fig. 3 is the composition structure diagram of the MEMS patch antenna design task management subsystems of the present invention;
Fig. 4 be the present invention MEMS patch antenna designs subsystem and MEMS paster antenna database subsystems composition with
Relation schematic diagram;
Fig. 5 is the interface schematic diagram of the Antenna Design of the embodiment of the present invention;
Fig. 6 is the interface schematic diagram of the progress antenna analysis of the embodiment of the present invention.
Main element symbol description
1:MEMS paster antenna demand analysis subsystems;11:Antenna requirements definition module;12:Antenna index decomposition module;
13:Antenna requirements INDEX MANAGEMENT module;2:MEMS patch antenna design task management subsystems;21:Design objective definition module;
22:Antenna Design process management module;23:Antenna Design task data management module;3:MEMS patch antenna design subsystems;
31:Antenna concept designs module;32:Antenna scale effect analysis module;33:Antenna electric performance analysis module;34:Antenna Design
Data management module;4:MEMS paster antenna database subsystems;41:Antenna Design flow of task template library;42:Antenna model
Storehouse;43:Dielectric material is seen;44:Encapsulating material storehouse;45:Antenna analysis post-process template library;5:MEMS patch antenna system management
Subsystem.
Embodiment:
It is in conjunction with attached drawing and specifically real to make the technical problem to be solved in the present invention, technical solution and advantage relatively sharp
Applying example, the present invention will be further described.
As shown in Figure 1, of the present invention be used for MEMS paster antenna quick response integrated design systems, including MEMS patches
Antenna requirements analyzing subsystem 1, MEMS patch antenna design task managements subsystem 2, MEMS patch antenna designs subsystem 3,
MEMS paster antennas database subsystem 4 and MEMS patch antenna systems management subsystem 5;Wherein,
MEMS paster antenna demand analyses subsystem 1, for antenna usage scenario analyze, realize antenna use environment,
The demand informations such as point, working time, user type define, and obtain the functional circuit information of the MEMS paster antennas, decompose antenna
Electrically and mechanically performance indicator, be transmitted in MEMS patch antenna design task managements subsystem 2, and to MEMS paster antenna numbers
According to storehouse subsystem transmitting antenna demand and index Design result;
MEMS patch antenna design task managements subsystem 2, believes for receiving MEMS paster antenna demand analyses subsystem 1
Breath, the Antenna Design task confirmed to the transmission of MEMS patch antenna designs subsystem 3 by requirement definition, storage MEMS patches day
The Conceptual Design of antenna concept design module transmission in line design subsystem 3, in MEMS patch antenna designs subsystem 3
Antenna scale effect analysis module transmission scale effect analysis result, the electrical property of MEMS patch antenna designs subsystem 3
The Electrical Analysis of analysis module transmission is as a result, monitoring MEMS patch antenna design processes;
MEMS patch antenna designs subsystem 3, for generating MEMS paster antenna Conceptual Design results and scale effect
Should analyze, Electrical Analysis as a result, i.e. according to MEMS patch antenna design task managements subsystem 2 send MEMS paster antennas
Design objective and design parameter, call Antenna Design flow of task template in MEMS paster antennas database subsystem 4, antenna
Model, dielectric material, encapsulating material, perform antenna electric performance and Mechanical Property Analysis, and to MEMS patch antenna design tasks
Manage the design analysis result after 2 transfer operation of subsystem;
MEMS paster antennas database subsystem 4, for storing and to MEMS patch antenna design task managements subsystem 2
Transmitting antenna design objective definition template, relevant antenna model, dielectric material are transmitted to MEMS patch antenna designs subsystem 3
Material, encapsulating material and antenna analysis post processing template, storage MEMS patch antenna design task managements subsystem 2 extract final
Design result;
MEMS patch antenna systems manage subsystem 5, for controlling MEMS paster antenna MEMS paster antenna demand analyses
Subsystem 1, MEMS patch antenna design task managements subsystem 2, MEMS patch antenna designs subsystem 3, MEMS paster antennas
Communication between database subsystem 4 and the system management subsystem, manages MEMS paster antenna quick response Integrated designs
The access right of system user.
To sum up, MEMS paster antennas quick response integrated design system of the present invention provides MEMS paster antennas
Quick response integrated design system global function module and its application flow, be towards antenna industry MEMS paster antennas it is special
Door developing instrument, it is with strong points;And MEMS paster antennas quick response integrated design system of the present invention includes MEMS
Demand analysis, conceptual design, scale effect analysis and the Electrical Analysis of paster antenna, therefore integrated level of the present invention is high;In addition, this
The database subsystem for inventing the quick response integrated design system of the MEMS paster antennas is integrated with abundant Antenna Design
Flow of task template, antenna model, dielectric material storehouse, encapsulating material storehouse and antenna analysis post processing template, therefore the present invention set
It is higher to count efficiency.Therefore, the quick response integrated design system of MEMS paster antennas of the present invention can effectively shorten such
In the product design cycle, enhance product performance, reduce cost.
As shown in Figure 2, the MEMS paster antennas demand analysis subsystem 1 includes antenna requirements definition module 11, day
Line index decomposition module 12, antenna requirements INDEX MANAGEMENT module 13;Wherein,
Antenna requirements definition module 11, for according to customer demand, carrying out antenna usage scenario analysis, defining antenna and use
Environment, place, working time, user type information, the functional circuit information of MEMS paster antennas designed by acquisition.
In practical applications, the definition of antenna requirements defines demand title and content by the way of text input, transmission
To MEMS patch antenna design task managements subsystem 2.
Antenna performance index decomposition module 12, the electrically and mechanically performance indicator for respective antenna Function Decomposition antenna.
In practical applications, antenna performance index decomposition is electrical property and mechanical performance, is determined by the way of text input
Gain, voltage standing wave ratio, directional diagram in adopted electrical property, impedance input, polarization mode;Machine is defined by the way of text input
Working strength, rigidity, impact flexibility in tool performance, are transmitted to MEMS patch antenna design task managements subsystem 2.
Antenna requirements INDEX MANAGEMENT module 13, for 4 transmitting antenna demand of MEMS paster antennas database subsystem with
Index Design by antenna requirements and performance decomposition result as a result, and be transmitted to MEMS patch antenna design task managements subsystem 2.
In practical applications, the antenna requirements management of the execution is operated by background data base, stores and change antenna
Demand parameter data.
As shown in Figure 3, the MEMS patch antenna designs task management subsystem 2 includes Antenna Design task definition mould
Block 21, Antenna Design process management module 22, Antenna Design task data management module 23;Wherein,
Antenna Design task definition module 21, for receiving 1 information of MEMS paster antenna demand analyses subsystem and MEMS
4 information of paster antenna database subsystem, the antenna confirmed to the transmission of MEMS patch antenna designs subsystem 3 by requirement definition
Design objective
In practical applications, the definition of Antenna Design task is defined by MEMS paster antenna demand analyses subsystem 1
Antenna requirements, electrical property and mechanical performance index, the dielectric material in MEMS patch antenna designs subsystem 3, encapsulating material
Determine.
Antenna Design process management module 22, for managing conceptual design, the scale of MEMS patch antenna designs subsystem 3
The design process of effect analysis and Electrical Analysis.
In practical applications, Antenna Design process is call parameters CAD modeling software Creo, completes MEMS paster antennas
Conceptual scheme and 3 d geometric modeling;Scale effect analyzes effect tendency of the size reduction to electrical property by exploitation program;Call
HFSS electromagnetic softwares, complete MEMS paster antenna Electrical Analysis.Process management is maintained at conceptual design, scale effect
Uniformity mapping when analysis and Electrical Analysis data.
Antenna Design task data management module 23, for receiving the design process of MEMS patch antenna designs subsystem 3
Information stores, the data of transmission MEMS patch antenna design task managements subsystem 2 to MEMS paster antenna database subsystems
4。
In practical applications, the Antenna Design task data of the execution is operated by background data base, is stored and is changed
Antenna Design task data.
As shown in Figure 4, the MEMS patch antenna designs subsystem 3 includes antenna concept design module 31, antenna ruler
Spend effect analysis module 32, antenna electric performance analysis module 33, Antenna Design data management module 34;The MEMS paster antennas
Database subsystem 4 includes Antenna Design flow of task template library 41, antenna model storehouse 42, dielectric material storehouse 43, encapsulating material
Storehouse 44, antenna analysis post processing template library 45;Wherein,
Antenna concept designs module 31, model information, dielectric material storehouse 43 and encapsulation for reception antenna model library 42
The material information of material depot 44, the design objective information of MEMS patch antenna designs management subsystem 2, complete MEMS paster antennas
Conceptual scheme, and by design result be transmitted to MEMS patch antenna designs management subsystem 2 for its operation.
In practical applications, antenna concept design is initiated by Antenna Design task, and the present invention is called in antenna model storehouse 42
Model, through choosing model, reallocation dielectric material and package material in demand and achievement data instantiation antenna model storehouse 42
Material, then calls call parameters CAD modeling software Creo, completes MEMS paster antennas conceptual scheme and 3 d geometric modeling.
Antenna scale effect analysis module 32, for receiving the design objective of MEMS patch antenna designs management subsystem 2
The scale effect calculation template information that information and antenna analysis post processing template library 45 are sent, calculates analysis scale and reduces
Afterwards, the energy expenditure that is brought to MEMS patch antenna designs, the variation tendency of electrical property output, after the completion of scale effect is analyzed
As a result MEMS patch antenna designs management subsystem 2 is transmitted to for its operation.
In practical applications, the exploitation program that scale effect is write by the present invention, calculating MEMS paster antennas energy expenditure,
Electrical property exports the change multiple after being reduced with scale.
Antenna electric performance analysis module 33, for receiving the design objective letter of MEMS patch antenna designs management subsystem 2
The Electrical Analysis Template Information that breath and antenna analysis post processing template library 45 are sent, calculates the MEMS paster antenna concepts
The gain of designing scheme, voltage standing wave ratio, S11 parameters, directional diagram, after the completion of Electrical Analysis result is transmitted to MEMS patches
Antenna Design management subsystem 2 is for its operation.
In practical applications, antenna electric performance analysis passes through program development, calls HFSS electromagnetic softwares, completes
MEMS paster antenna Electrical Analysis, and gain, voltage standing wave ratio, S11 parameters, pattern information are sent back into MEMS patches day
In line quick response integrated design system.
Antenna Design data management module 34, for receiving and transmitting antenna design information to MEMS patch antenna design pipes
Manage in subsystem 2.
In practical applications, the Antenna Design data of the execution are stored through MEMS patch antenna designs management subsystem 2
Into MEMS paster antennas database subsystem 4.
Antenna Design flow of task template library 41, for storing and to MEMS patch antenna design task managements subsystem 2
Transmitting antenna design objective definition template, also receives times that MEMS patch antenna design task managements subsystem 2 is created or updated
Business flow template, increases the flow of task template in Antenna Design flow of task template library 41.
In actual use, Antenna Design flow of task preserves Antenna Design flow of task according to conventional design cycle, or
Based on the template change picked out, new template is generated.
Antenna model storehouse 42, for storing by selection and the various specific MEMS paster antennas modeled in advance.
In practical applications, antenna model storehouse is first established by Parametric CAD modeling software Creo, and establishes pattern drawing ginseng
The incidence relation of several, so as to fulfill the process regenerated with the whole MEMS paster antennas of a small amount of input parameter driving.
Dielectric material storehouse 43, for storing the attribute information of the different a variety of materials of dielectric constant, is transmitted to MEMS patches
Calculated in Antenna Design subsystem.
In practical applications, the dielectric constant of various dielectric materials is measured by design manual lookup and test data, is deposited
Store up MEMS paster antenna quick response integrated design systems.
Encapsulating material storehouse 44, for storing the attribute information of various encapsulating materials, is transmitted to MEMS patch antenna designs
Calculated in system.
In practical applications, the mechanical performance attribute number of encapsulating material is measured by design manual lookup and test data
According to MEMS paster antenna quick response integrated design systems are arrived in storage.
Antenna analysis post-process template library 45, for providing uniform format to the analysis of antenna scale effect and Electrical Analysis
Output format, transmission and reception antenna reprocessing analysis template are to MEMS patch antenna design task managements subsystem 2, renewal
Template library 45 is post-processed with antenna analysis are improved.
In practical applications, by providing the analysis of antenna scale effect and Electrical Analysis result form, after making antenna
Processing analysis template, is increased by MEMS patch antenna design task managements subsystem 2 and changes existing template, updated and perfect
Antenna analysis post-process template library 45.
In practical applications, completed Antenna Design result can be checked in Antenna Design.
In practical applications, completed antenna performance analysis result can be checked in antenna analysis.
In the present invention, MEMS patch antenna systems management subsystem 5 includes subsystem communication module, user authority management
Module, wherein subsystem communication module, for MEMS paster antenna demand analyses subsystem 1, MEMS patch antenna design tasks
Manage subsystem 2, MEMS patch antenna designs subsystem 3, MEMS paster antennas database subsystem 4 and the MEMS patches day
Communication between line system management subsystem 5.
User authority management module, it is close for MEMS paster antennas quick response integrated design system user's operation and user
The management of code weight limit.
In practical applications, user right content provided user role, i.e., ordinary user and administrator are possessed money
Source operational capacity.
Embodiment
MEMS paster antennas quick response integrated design system described in the present embodiment carries out MEMS patch antenna design analyses
Operation flow include the following steps:
Step 1:MEMS paster antenna demand analyses subsystem 1 is used for according to customer demand, carries out antenna usage scenario point
Analysis, defines antenna use environment, place, working time, user type information by the way of text input, designed by acquisition
The functional circuit information of MEMS paster antennas;The gain in paster antenna electrical property, voltage is specified to stay with the mode of text input
Bobbi, directional diagram, impedance input, polarization mode;Working strength, rigidity, the impact flexibility index in mechanical performance are specified, then
Sent to MEMS patch antenna design task managements subsystem 2.
User carries out MEMS patch antenna design task managements subsystem 2, checks the Antenna Design task of transmission, is then
System jumps to conceptual design module or scale effect analysis module, Electrical Analysis in MEMS patch antenna designs subsystem 3
Module.
In practical applications, design objective includes MEMS patch antenna designs and antenna analysis two parts, design objective are born
Blame MEMS paster antennas conceptual scheme and Geometric Modeling moulding, analysis task be responsible for MEMS paster antennas scale effect analysis and
Electrical Analysis.
Step 2:After system jumps to MEMS paster antenna conceptual designs module 31, user needs to select antenna concept design
Template, clicks on symbol for dimensioning on concept map, In-put design parameter, material, shape are selected from dielectric material storehouse 43, encapsulating material storehouse 44
Into MEMS paster antenna conceptual design results.
Attached drawing 5 is the interface schematic diagram of Antenna Design in the present embodiment.As shown in figure 5, MEMS paster antenna concept templates
Picked out manually from antenna model storehouse 42, the symbol for dimensioning on the concept map represents parameterized sizes, and user inputs dimensional parameters;
User selection dielectric material and encapsulating material from " dielectric material browses " and " encapsulating material browses " in the interface lower left corner;Interface
The right using antenna template generation MEMS paster antennas and showing 3 dimensional coil geometry.
In practical applications, the formed design result data storage of each operation of the user to antenna model is pasted to MEMS
In chip antenna design objective management subsystem 2.
Step 3:After system jumps to antenna analysis, user needs selection to do scale effect analysis and Electrical Analysis, shape
Into MEMS paster antenna analysis results.
Attached drawing 6 is the interface schematic diagram of antenna analysis in the present embodiment.As shown in fig. 6, MEMS paster antennas electrical property point
After analysis result is arranged by antenna analysis post processing template library 45, antenna scale effect analysis result and Electrical Analysis knot are exported
Fruit.
In practical applications, the formed analysis result data storage of each operation of the user to antenna model is pasted to MEMS
In chip antenna design objective management subsystem 2.
The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and
All any modification, equivalent and improvement made within principle etc., should be included within the scope of the present invention.
Claims (6)
1. a kind of MEMS paster antennas quick response integrated design system, it is characterised in that including MEMS paster antennas demand point
Analyse subsystem, MEMS patch antenna design task managements subsystem, MEMS patch antenna designs subsystem, MEMS paster antenna numbers
According to storehouse subsystem and MEMS patch antenna systems management subsystem, wherein, MEMS paster antenna demand analysis subsystems, for day
Line usage scenario is analyzed, and is realized that the demand informations such as antenna use environment, place, working time, user type define, is somebody's turn to do
The functional circuit information of MEMS paster antennas, decomposes the electrically and mechanically performance indicator of antenna, is transmitted to MEMS patch antenna designs
In task management subsystem, and to MEMS paster antennas database subsystem transmitting antenna demand and index Design result;
MEMS patch antenna design task management subsystems, for receiving MEMS paster antenna demand analysis subsystem informations, to
The Antenna Design task that the transmission of MEMS patch antenna designs subsystem confirms by requirement definition, stores MEMS patch antenna designs
The Conceptual Design of antenna concept design module transmission in subsystem, the antenna ruler in MEMS patch antenna design subsystems
The scale effect analysis result of effect analysis module transmission is spent, the Electrical Analysis module of MEMS patch antenna design subsystems passes
The Electrical Analysis sent is as a result, monitoring MEMS patch antenna design processes;
MEMS patch antenna design subsystems, for generating MEMS paster antenna Conceptual Design results and scale effect point
Analysis, Electrical Analysis are as a result, the MEMS patch antenna designs sent according to MEMS patch antenna design task managements subsystem
Task and design parameter, call MEMS paster antenna database subsystems in Antenna Design flow of task template, antenna model,
Dielectric material, encapsulating material, perform antenna electric performance and Mechanical Property Analysis, and sub to the task management of MEMS patch antenna designs
Design analysis result after system transfer operation;
MEMS paster antenna database subsystems, for storing and transmitting day to MEMS patch antenna design task managements subsystem
Line design objective definition template, relevant antenna model, dielectric material, package material are transmitted to MEMS patch antenna designs subsystem
Material and antenna analysis post processing template, the final design result of storage MEMS patch antenna design task managements subsystem extraction;
MEMS patch antenna systems manage subsystem, for controlling MEMS paster antenna MEMS paster antenna demand analysis subsystems
System, MEMS patch antenna design task managements subsystem, MEMS patch antenna designs subsystem, MEMS paster antenna database subsystems
Communication between system and the system management subsystem, management MEMS paster antenna quick response integrated design system users'
Access right.
2. a kind of MEMS paster antennas quick response integrated design system according to claim 1, it is characterised in that described
MEMS paster antenna demand analyses subsystem includes antenna requirements definition module, antenna performance index decomposition module, antenna requirements
INDEX MANAGEMENT module;Wherein, antenna requirements definition module, is analyzed for antenna usage scenario, definition antenna use environment,
Point, working time, user type information, the functional circuit information of MEMS paster antennas designed by acquisition;
Antenna performance index decomposition module, the electrically and mechanically performance indicator for respective antenna Function Decomposition antenna;
Antenna requirements INDEX MANAGEMENT module, for MEMS paster antennas database subsystem transmitting antenna demand and index Design
As a result, and antenna requirements and analysis and results of property are transmitted to MEMS patch antenna design task management subsystems.
3. a kind of MEMS paster antennas quick response integrated design system according to claim 1, it is characterised in that described
MEMS patch antenna design task managements subsystem include Antenna Design task definition module, Antenna Design process management module,
Antenna Design task data management module;Wherein, Antenna Design task definition module, for according to Antenna Design task, calling
Antenna Design flow of task template in MEMS paster antenna database subsystems, or result defines new antenna and sets according to demand
Meter task, then passes the Antenna Design flow of task template of calling or new design objective to MEMS patch antenna designs subsystem
Send;
Antenna Design process management module, for monitoring the situation of Antenna Design tasks carrying, including flow progress and system shape
State presentation of information;
Antenna Design task data management module, for the Antenna Design flow of task called to Antenna Design task definition module
Template or new design objective, user's design and analysis acquired results of MEMS patch antenna designs subsystem transmission carry out data dimension
Shield and management, store and issue the final design result of MEMS patch antenna design task managements subsystem extraction.
4. a kind of MEMS paster antennas quick response integrated design system according to claim 1, it is characterised in that described
MEMS patch antenna designs subsystem includes antenna concept design module, antenna scale effect analysis module, antenna electric performance point
Analyse module, Antenna Design data management module;Wherein, antenna concept design module, for being appointed according to MEMS patch antenna designs
The Antenna Design task and parameter input by user that business management subsystem is sent, call MEMS paster antenna database subsets
Antenna Design flow of task template in system, antenna model, dielectric material, encapsulating material, perform antenna concept schemes synthesis point
Analysis task, to the antenna concept design result of MEMS patch antenna design task management subsystem transfer operation users;
Antenna scale effect analysis module, for the antenna concept according to derived from MEMS patch antenna design task management subsystems
Design result and parameter input by user, call the encapsulating material in MEMS paster antenna database subsystems, perform scale effect
Analysis task is answered, to the scale effect analysis result of MEMS patch antenna design task management subsystem transfer operation users;
Antenna electric performance analysis module, sets for the antenna concept according to derived from MEMS patch antenna design task management subsystems
Result and parameter input by user are counted, calls the dielectric material in MEMS paster antenna database subsystems, performs electrical property point
Analysis task, to the Electrical Analysis result of MEMS patch antenna design task management subsystem transfer operation users;
Antenna Design data management module, is analyzed and electrical for the antenna concept design result to user's operation, scale effect
Acquired results can be analyzed and carry out maintenance and management, store and transmit final design result to MEMS patch antenna design task managements
Subsystem.
5. a kind of MEMS paster antennas quick response integrated design system according to claim 1, it is characterised in that described
MEMS paster antennas database subsystem includes Antenna Design flow of task template library, antenna model storehouse, dielectric material storehouse, encapsulation
Material depot, antenna analysis post processing template library;Wherein, Antenna Design flow of task template library, for storing and to MEMS patches
Antenna Design task management subsystem transmission antenna design objective template, stores and transmits MEMS patch antenna design task managements
The final design result of subsystem extraction;
Antenna model storehouse, for storing and to MEMS patch antenna design subsystem transmitting antenna geometrical models;
Dielectric material storehouse, for storing and to each layer dielectric material of MEMS patch antenna design subsystem transmitting antennas;
Encapsulating material storehouse, for storing and to MEMS patch antenna design subsystem transmitting antenna encapsulating materials;
Antenna analysis post-process template library, for store and it is general to MEMS patch antenna design task management subsystem transmission antennas
Design, scale effect analysis, Electrical Analysis task template are read, the analysis post processing knot of final design obtained by storage user's operation
Fruit.
6. a kind of MEMS paster antennas quick response integrated design system according to claim 1, it is characterised in that described
MEMS patch antenna systems management subsystem includes subsystem communication module, user authority management module;Wherein, subsystem communication
Module, for MEMS paster antenna demand analyses subsystem, MEMS patch antenna design task managements subsystem, MEMS patches day
It is logical between line design subsystem, MEMS paster antennas database subsystem and MEMS patch antenna systems management subsystem
Letter;
User authority management module, for MEMS paster antennas quick response integrated design system user's operation and user right
Management.
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