CN104317748A - Multi-MCU-and-FPGA collaboration processing and touch display master monitoring system and image interface design and control method of multi-MCU-and-FPGA collaboration processing and touch display master monitoring system - Google Patents

Abstract

The invention discloses a multi-MCU-and-FPGA collaboration processing and touch display master monitoring system and an image interface design and control method of the multi-MCU-and-FPGA collaboration processing and touch display master monitoring system. The multi-MCU-and-FPGA collaboration processing and touch display master monitoring system comprises a master control circuit board used for completing data exchange, data processing, data storage and data dispatching of an external system and a touch display screen used for providing image display and operation interface touch. The master control circuit board comprises an MCU processing unit used for completing data exchange and an FPGA integrated circuit used for completing data processing, data storage and data dispatching, the MCU processing unit comprises one or more MCU modules, one end of each of the one or more MCU modules is connected with the external system through a data interface, the other end of each of the one or more MCU modules is connected with the FPGA integrated circuit, and the FPGA integrated circuit is connected with the external system through a control interface. The touch display screen is connected with display and processing MCU modules through RS232 interfaces to complete display. The multi-MCU-and-FPGA collaboration processing and touch display master monitoring system is high in starting speed, low in cost, high in integration level, simple in operation, convenient to use, high in stability, high in reliability and good in electro magnetic compatibility.

Description

Many MCU and FPGA associated treatment, touch-control display monitoring and controlling system and graphic interface thereof design and control method

Technical field

The present invention relates to supervisory system field, particularly relate to a kind of many MCU and FPGA associated treatment, touch-control display monitoring and controlling system and graphic interface design thereof and control method.

Background technology

The monitoring and controlling system similar to the present invention is by computing machine, display, keyboard, mouse, internal memory, expansion card, the compositions such as Communication Control, its starting up speed is slow, system response speed is generally a minute level, integrated level is low, and it is expensive, some supervisory system costs are up to hundreds of thousands yuan, pass through keyboard, mouse manipulates system, use complexity, graphic interface is single, not easily left-hand seat, relevant profession basis must be had and could use through relevant professional training, and keyboard and mouse, internal memory, the interfaces such as video card easily break down, the reliability of reduction system,

As military monitoring and controlling system scheme, the program mainly adopts PC104 computer module or industrial computer, reinforcement type display and Communication Control, timing plate has come, its technological deficiency is based on general operating system, system response speed is a minute level, toggle speed is slow, if in the wartime, probably occur that one's own side's system does not also start but by situation that enemy destroys, this system schema is expensive, integrated level is low, its keyboard and mouse, internal memory, the interfaces such as video card easily break down, system performance reliability is low, graphic interface is single, manipulation is complicated.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, a kind of many MCU and FPGA associated treatment, touch-control display monitoring and controlling system and graphic interface thereof is provided to design and control method, FPGA integrated circuit, MCU micro-control processing unit and touching display screen is adopted to be built into a monitoring and controlling system, realize carrying out data processing exchange and controlling functions to each external equipment or system, main resolution system toggle speed is slow, expensive, the shortcomings such as integrated level is low, and reliability is low, graphic interface is single, use is complicated.

The object of the invention is to be achieved through the following technical solutions: many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, it comprises the exchanges data for completing outer welding system, process, the main control board storing and dispatch, described main control board comprises MCU micro-control processing unit for completing exchanges data and for completing data processing, the FPGA integrated circuit storing and dispatch, described MCU micro-control processing unit comprises one or more MCU module, one end of described one or more MCU module is connected with outer welding system respectively by data-interface, its other end is connected with FPGA integrated circuit respectively, FPGA integrated circuit is also connected with outer welding system by control interface.

Described MCU micro-control processing unit comprises one or more the combination in process MCU module A, process MCU module B, network processes MCU module and logical control MCU module, process MCU module A, process MCU module B, network processes MCU module are connected with outer welding system respectively by communication interface with logical control MCU module, and process MCU module A, process MCU module B, network processes MCU module are also connected with FPGA integrated circuit respectively with logical control MCU module.

Described communication interface comprises one or more the combination in RS232 communication interface, RS422 communication interface, RJ45 communication interface and RS485 communication interface.

Described process MCU module A is connected with outer welding system by RS232 communication interface.

Described process MCU module B is connected with outer welding system by RS422 communication interface.

Described network processes MCU module is connected with outer welding system by RJ45 communication interface.

Described logical control MCU module is connected with outer welding system by RS485 communication interface.

Described FPGA integrated circuit comprises data dispatch Switching Module, control circuit module and multiple memory module, described data dispatch Switching Module respectively multiple memory module is connected with multiple MCU module, data dispatch Switching Module also with control circuit model calling, control circuit module is connected with outer welding system by control interface.

Described memory module comprises memory module A, memory module B, memory module C and memory module D.

Described data dispatch Switching Module is connected with process MCU module A by memory module A.

Described data dispatch Switching Module is connected with process MCU module B by memory module B.

Described data dispatch Switching Module is connected with network processes MCU module by memory module C.

Described data dispatch Switching Module is controlled MCU module by memory module D and is connected with leading to.

It also comprises the display screen for showing graphic interface, and described display screen is connected with main control board by video interface.

Described display screen is for providing the touch display screen of touch operation graphic interface, and described video interface is RS232 interface.

Described MCU micro-control processing unit also comprises Graphics Processing MCU module, and described Graphics Processing MCU module is connected with display screen by video interface.

Described FPGA integrated circuit also comprises memory module E, and described Graphics Processing MCU module is connected with data dispatch Switching Module by memory module E.

Based on a graphic interface method for designing for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, the method for designing of described graphic interface comprises following multiple step:

S11: button that is to be placed, that show and state picture are represented;

S12: design treatment is carried out to each button and state by certain logic, described design treatment comprises variable and distributes alignment processing and logic redirect process;

S13: Graphics Processing MCU module processes accordingly, comprises variable data process, page layout switch process and Graphics Processing.

Based on a control method for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, described control method comprises following multiple step:

S21: arrange corresponding parameters and working method by the mode of touch control on touch display screen, is sent to Graphics Processing MCU module by the data message including this parameters and working method;

S22: Graphics Processing MCU module processes this data message, is sent to the data message after this process in the memory module E of FPGA integrated circuit;

The data dispatch Switching Module of S23:FPGA integrated circuit processes the data message including parameters and working method in this memory module E and analyzes, and gained information after process is carried out exchanges data with multiple memory module respectively by the control command of control circuit module;

Multiple MCU module in S24:MCU micro-control processing unit read this control information respectively from memory module corresponding with it, and by respective data-interface, this control information is sent to outer welding system, this control information is directly sent to outer welding system by control interface by control circuit module, realizes the control of external welding system;

The data message that multiple MCU module in S25:MCU micro-control processing unit send respectively by the outer welding system of respective data-interface reception, then be stored in memory module corresponding with it respectively;

S26: data dispatch Switching Module is optionally stored in the data message that this outer welding system sends in memory module E, Graphics Processing MCU module by the data message necessarily controlling to read this outer welding system from this memory module E and send, and sends it to touch display screen and shows;

S27: manipulated display graphic interface by the mode touched, Graphics Processing MCU module is correspondingly processed to graphic interface according to the touch signal of touch display screen.

The invention has the beneficial effects as follows:

The present invention removes computer module and adopts the pure hardware of FPGA and MCU to form the processing capacity of similar computer CPU, system response speed is made to become Millisecond from a minute level, system speed improves hundreds of times, if in the wartime, great advantage will be had by the solution of the present invention, can go into battle soon after start;

In price, the solution of the present invention materials cost only needs less than 5,000 yuan;

Integrated level aspect, the solution of the present invention adopts one piece of highly integrated main control board and touch control display, all MCU micro-control processing units and FPGA integrated circuit concentrate in together by main control board, touch control display provides touch control operation, keyboard and mouse is no longer relied on to operate, the integrated level of effective raising system, reliability, practicality and Electro Magnetic Compatibility;

Graphic interface aspect, graphic interface of the present invention is that can arbitrarily change, color can arbitrarily be arranged in pairs or groups, simplicity of design, and this programme can provide more friendly human-computer interaction interface based on pictured, touch-control design;

Use, touch control display of the present invention provides touch operation and control interface, simple to operate easy-to-use, only according to menu prompt, just quickly and easily need can be manipulated, effectively reduce training cost and the training time cost of operating personnel by the mode touched;

Present system start fast, price is low, integrated level is high, simple to operate, easy to use, stability is high, reliability is strong, Electro Magnetic Compatibility is good.

Accompanying drawing explanation

Fig. 1 is the system principle diagram of monitoring and controlling system of the present invention.

Embodiment

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, but protection scope of the present invention is not limited to the following stated.

As shown in Figure 1, many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, it comprise exchanges data for completing outer welding system, process, storage and scheduling main control board and provide image to show and the touch display screen at touch operation interface.Described main control board comprises MCU micro-control processing unit for completing exchanges data and the FPGA integrated circuit for completing data processing, storage and scheduling, described MCU micro-control processing unit comprises one or more MCU module, one end of described one or more MCU module is connected with outer welding system respectively by data-interface, its other end is connected with FPGA integrated circuit respectively, and FPGA integrated circuit is connected with outer welding system by control interface.Described outer welding system can be multiple different equipment or system, namely with process MCU module A, process MCU module B, network processes MCU module and lead to the equipment controlled corresponding to MCU module or system.Touch display screen has been connected display by RS232 interface with the Graphics Processing MCU module of master control borad.

Described MCU micro-control processing unit comprises one or more the combination in process MCU module A, process MCU module B, network processes MCU module and logical control MCU module, process MCU module A, process MCU module B, network processes MCU module are connected with outer welding system respectively by communication interface with logical control MCU module, and process MCU module A, process MCU module B, network processes MCU module are also connected with FPGA integrated circuit respectively with logical control MCU module.

Described communication interface comprises RS232 communication interface, RS422 communication interface, RJ45 communication interface and RS485 communication interface.

Described process MCU module A is connected with outer welding system by RS232 communication interface.

Described process MCU module B is connected with outer welding system by RS422 communication interface.

Described network processes MCU module is connected with outer welding system by RJ45 communication interface.

Described logical control MCU module is connected with outer welding system by RS485 communication interface.

Described FPGA integrated circuit comprises data dispatch Switching Module, control circuit module and multiple memory module, described data dispatch Switching Module is connected with control circuit module and multiple memory module respectively, and control circuit module is connected with outer welding system by control interface.

Described memory module comprises memory module A, memory module B, memory module C and memory module D.

Described data dispatch Switching Module is connected with process MCU module A by memory module A.

Described data dispatch Switching Module is connected with process MCU module B by memory module B.

Described data dispatch Switching Module is connected with network processes MCU module by memory module C.

Described data dispatch Switching Module is controlled MCU module by memory module D and is connected with leading to.

The monitoring and controlling system that the present invention proposes also comprises the display screen for showing graphic interface.Described display screen is for providing the touch display screen of touch operation graphic interface.Touch display screen can select enlightening literary composition DGUS screen.

Described MCU micro-control processing unit also comprises Graphics Processing MCU module, and described Graphics Processing MCU module is connected with display screen by video interface.

Described FPGA integrated circuit also comprises memory module E, and described Graphics Processing MCU module is connected with data dispatch Switching Module by memory module E.

Described video interface is RS232 interface.

Based on a graphic interface method for designing for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, the method for designing of described graphic interface comprises following multiple step:

S11: button that is to be placed, that show and state picture are represented;

S12: design treatment is carried out to each button and state by certain logic, described design treatment comprises variable and distributes alignment processing and logic redirect process;

S13: Graphics Processing MCU module processes accordingly, comprises variable data process, page layout switch process and Graphics Processing.

Based on a control method for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, described control method comprises following multiple step:

S21: arrange corresponding parameters and working method by the mode of touch control on touch display screen, is sent to Graphics Processing MCU module by the data message including this parameters and working method;

S22: Graphics Processing MCU module processes this data message, is sent to the data message after this process in the memory module E of FPGA integrated circuit;

The data dispatch Switching Module of S23:FPGA integrated circuit processes the data message including parameters and working method in this memory module E and analyzes, and gained information after process is carried out exchanges data with memory module A, memory module B, memory module C or memory module D respectively by the control command of control circuit module;

Process MCU module A in S24:MCU micro-control processing unit, process MCU module B, network processes MCU module and logical control MCU module read this control information respectively from corresponding with it memory module A, memory module B, memory module C and memory module D, and respectively by RS232 communication interface, RS422 communication interface, RJ45 communication interface and RS485 communication interface, this control information is sent to outer welding system, control circuit module is also direct is sent to outer welding system by control interface by this control information, realizes the control of external welding system;

The data message that process MCU module A in S25:MCU micro-control processing unit, process MCU module B, network processes MCU module and logical control MCU module send respectively by the outer welding system of RS232 communication interface, RS422 communication interface, RJ45 communication interface and RS485 communication interface reception, then be stored in corresponding with it memory module A, memory module B, memory module C and memory module D respectively;

S26: data dispatch Switching Module is optionally stored in the data message that this outer welding system sends in memory module E, Graphics Processing MCU module by the data message necessarily controlling to read this outer welding system from this memory module E and send, and sends it to touch display screen and shows;

S27: manipulated display graphic interface by the mode touched, Graphics Processing MCU module is correspondingly processed to graphic interface according to the touch signal of touch display screen.

In step S23 and step S24:

The data dispatch Switching Module of FPGA integrated circuit processes the data message comprising parameter and the working method arranged in each memory module and analyzes, gained information after process is carried out exchanges data with the control module of corresponding outer welding system in an orderly manner under the control of control circuit module, realizes the control of external welding system control module;

Or data dispatch Switching Module is by process MCU module A/ process MCU module B and memory module A/ memory module B, and gained control information after process is sent to outer welding system, and the processing unit realizing external welding system controls;

Or data dispatch Switching Module is by network processes MCU module and memory module C, and gained control information after process is sent to outer welding system, and the network processing unit realizing external welding system controls;

Or data dispatch Switching Module is by logical control MCU module and memory module D, and gained control information after process is sent to outer welding system, and the communication control unit realizing external welding system controls.

The principle of monitoring and controlling system of the present invention is the data utilizing multiple MCU parallel processing and outer welding system to exchange, and the result of process is stored into corresponding memory module, by in the memory module of the requirement write FPGA integrated circuit of system and buffer area, each MCU module reads corresponding data according to oneself pending data is parallel in the memory module of FPGA, completes the control to whole system and exchanges data.

The present invention can complete the parallel processing to interfaces such as RS232 communication interface, RS422 communication interface, RS485 serial ports and network interfaces.

The present invention utilizes the touch display screen of monitoring and controlling system can arrange the parameters of whole supervisory system, working method etc., and can complete the work such as state display, machine failure instruction is carried out to whole system, realize completing monitoring and controlling to whole supervisory system by monitoring and controlling system.

The present invention removes computer module and adopts the pure hardware of FPGA and MCU to form the processing capacity of similar computer CPU, system response speed is made to become Millisecond from a minute level, system speed improves hundreds of times, if in the wartime, great advantage will be had by the solution of the present invention, can go into battle soon after start, be destroyed by enemy if also do not started by the system of similar scheme oneself.

In price, similar scheme constructs supervisory system materials cost needs hundreds of thousands, and the solution of the present invention materials cost only needs less than 5,000 yuan.

Integrated level aspect, the similar composition such as scheme computing machine, display, keyboard, mouse, internal memory, expansion card, Communication Control, and the solution of the present invention adopts one piece of highly integrated disposable plates and touch control display all control to be concentrated in together, touch control operation, handling, reliability and Electro Magnetic Compatibility improve greatly.

Graphic interface aspect, similar scheme adopts programming, graphic style and color is single and programing work amount is large, and graphic interface of the present invention is based on pictured, touch-control design, can arbitrarily change, color can arbitrarily be arranged in pairs or groups, simplicity of design, this programme can provide more friendly human-computer interaction interface.

Use, similar scheme, based on computer disposal, must have relevant profession basis and could use through relevant professional training, and interface operation of the present invention is simple and easy to use, according to menu prompt, only just can quickly and easily need be manipulated by the mode touched.

Present system start fast, price is low, integrated level is high, simple to operate, easy to use, stability is high, reliability is strong, Electro Magnetic Compatibility is good.

Claims (10)

1. the associated treatment of MCU and FPGA more than, touch-control display monitoring and controlling system, it is characterized in that: it comprises the exchanges data for completing outer welding system, process, the main control board storing and dispatch, described main control board comprises MCU micro-control processing unit for completing exchanges data and for completing data processing, the FPGA integrated circuit storing and dispatch, described MCU micro-control processing unit comprises one or more MCU module, one end of described one or more MCU module is connected with outer welding system respectively by data-interface, its other end is connected with FPGA integrated circuit respectively, FPGA integrated circuit is also connected with outer welding system by control interface.

2. many MCU and FPGA associated treatment according to claim 1, touch-control display monitoring and controlling system, it is characterized in that: described MCU micro-control processing unit comprises one or more the combination in process MCU module A, process MCU module B, network processes MCU module and logical control MCU module, process MCU module A, process MCU module B, network processes MCU module are connected with outer welding system respectively by communication interface with logical control MCU module, and process MCU module A, process MCU module B, network processes MCU module are also connected with FPGA integrated circuit respectively with logical control MCU module.

3. many MCU and FPGA associated treatment according to claim 2, touch-control display monitoring and controlling system, is characterized in that: described communication interface comprises one or more the combination in RS232 communication interface, RS422 communication interface, RJ45 communication interface and RS485 communication interface;

Described process MCU module A is connected with outer welding system by RS232 communication interface;

Described process MCU module B is connected with outer welding system by RS422 communication interface;

Described network processes MCU module is connected with outer welding system by RJ45 communication interface;

Described logical control MCU module is connected with outer welding system by RS485 communication interface.

4. many MCU and FPGA associated treatment according to claim 1, touch-control display monitoring and controlling system, it is characterized in that: described FPGA integrated circuit comprises data dispatch Switching Module, control circuit module and multiple memory module, described data dispatch Switching Module respectively multiple memory module is connected with multiple MCU module, data dispatch Switching Module also with control circuit model calling, control circuit module is connected with outer welding system by control interface.

5. many MCU and the FPGA associated treatment according to claim 2 or 4, touch-control display monitoring and controlling system, is characterized in that:

Described memory module comprises memory module A, memory module B, memory module C and memory module D;

Described data dispatch Switching Module is connected with process MCU module A by memory module A;

Described data dispatch Switching Module is connected with process MCU module B by memory module B;

Described data dispatch Switching Module is connected with network processes MCU module by memory module C;

Described data dispatch Switching Module is controlled MCU module by memory module D and is connected with leading to.

6. many MCU and FPGA associated treatment according to claim 1, touch-control display monitoring and controlling system, is characterized in that: it also comprises the display screen for showing graphic interface, and described display screen is connected with main control board by video interface.

7. many MCU and FPGA associated treatment according to claim 6, touch-control display monitoring and controlling system, is characterized in that: described display screen is for providing the touch display screen of touch operation graphic interface.

8. many MCU and the FPGA associated treatment according to claim 4 or 6, touch-control display monitoring and controlling system, is characterized in that:

Described MCU micro-control processing unit also comprises Graphics Processing MCU module, and described Graphics Processing MCU module is connected with display screen by video interface;

Described FPGA integrated circuit also comprises memory module E, and described Graphics Processing MCU module is connected with data dispatch Switching Module by memory module E;

Described video interface is RS232 interface.

9., based on a graphic interface method for designing for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, it is characterized in that: the method for designing of described graphic interface comprises following multiple step:

S11: button that is to be placed, that show and state picture are represented;

S12: design treatment is carried out to each button and state by certain logic, described design treatment comprises variable and distributes alignment processing and logic redirect process;

S13: Graphics Processing MCU module processes accordingly, comprises variable data process, page layout switch process and Graphics Processing.

10., based on a control method for many MCU and FPGA associated treatment, touch-control display monitoring and controlling system, it is characterized in that: described control method comprises following multiple step:

S21: arrange corresponding parameters and working method by the mode of touch control on touch display screen, is sent to Graphics Processing MCU module by the data message including this parameters and working method;

S22: Graphics Processing MCU module processes this data message, is sent to the data message after this process in the memory module E of FPGA integrated circuit;

The data dispatch Switching Module of S23:FPGA integrated circuit processes the data message including parameters and working method in this memory module E and analyzes, and gained information after process is carried out exchanges data with multiple memory module respectively by the control command of control circuit module;

Multiple MCU module in S24:MCU micro-control processing unit read this control information respectively from memory module corresponding with it, and by respective data-interface, this control information is sent to outer welding system, this control information is directly sent to outer welding system by control interface by control circuit module, realizes the control of external welding system;

The data message that multiple MCU module in S25:MCU micro-control processing unit send respectively by the outer welding system of respective data-interface reception, then be stored in memory module corresponding with it respectively;

S26: data dispatch Switching Module is optionally stored in the data message that this outer welding system sends in memory module E, Graphics Processing MCU module by the data message necessarily controlling to read this outer welding system from this memory module E and send, and sends it to touch display screen and shows;

S27: manipulated display graphic interface by the mode touched, Graphics Processing MCU module is correspondingly processed to graphic interface according to the touch signal of touch display screen.