CN201860344U - System supporting various fieldbus protocols - Google Patents
System supporting various fieldbus protocols Download PDFInfo
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- CN201860344U CN201860344U CN2010205702898U CN201020570289U CN201860344U CN 201860344 U CN201860344 U CN 201860344U CN 2010205702898 U CN2010205702898 U CN 2010205702898U CN 201020570289 U CN201020570289 U CN 201020570289U CN 201860344 U CN201860344 U CN 201860344U
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Abstract
The utility model provides a system supporting various fieldbus protocols. The system comprises a CPU (Central Processing Unit) module, an Ethernet physical layer chip PHY, a network transformer, an RJ 45 interface, an NOR_ Flash memory, an FPGA (Field Programmable Gate Array) module and a CPLD (Complex Programmable Logic Device) module, wherein the FPGA module is connected with the CPU module, the CPLD module and the physical layer chip PHY respectively; the NOR_ Flash memory, the CPU module and the CPLD module are connected in sequence; and the Ethernet physical layer chip PHY, the network transformer and the RJ 45 interface are connected in sequence. The system provided by the utility model greatly reduces the hardware use resources, lowers the hardware cost, improves the hardware use efficiency, and creates very high benefits in practical production.
Description
Technical field
The utility model relates to the Industrial Ethernet automatic field, relates in particular to a kind of system that supports multiple field bus protocol.
Background technology
Industrial Ethernet is to be used for industrial automation environment, meet IEEE 802.3 standards, according to IEEE802.1D " media interviews control (MAC) bridge " standard and IEEE 802.1Q " local network virtual bridge " standard, it is not carried out the Ethernet that any real-time extension realizes.Alleviate the Ethernet load, improve network speed, adopt switching Ethernet and technology such as full-duplex communication, employing Data Control, flow control, clock control and Synchronization Control by employing, present Industrial Ethernet can be accomplished the communication cycle of 4~1ms substantially.Because the Industrial Ethernet interconnection is simple, realize the seamless link of information network, hardware and software is with low cost, the traffic rate height, stable performance, satisfy the high sweeping system communication of complexity, the continuous development of ethernet technology in addition, the numerous and confused technical solution that proposes various lifting Industrial Ethernet real-times of each major company and normal structure.These schemes comprise:
Have in the world: by the CI of ControlNet international organization, the IEA of Industrial Ethernet association and the open common industrial network standard Ethernet/IP real-time ethernet technology of developing such as the ODVA of DeyiceNet association of business suppliers; Modbus tissue and IDA (Interface forDistributed Automation) group jointly develop the Modbus-IDA real-time ethernet; Profibus International (PI) tissue and Interbus Club cooperate and develop the real-time industrial ethernet with formulation standard P ROFINET; By Austrian B﹠amp; R company is in the Ethernet PowerLink of calendar year 2001 exploitation; Also has EtherCAT (Ethernet for Control Automation Technology) by the exploitation of German Beckhoff company or the like.
In state-owned: the ethernet standard that is used for commercial measurement and control system is under the support in the Ministry of Science and Technology " 863 " plan, the EPA (Ethernet for Plant Automation) that the standard drafting group of being set up by unit consolidations such as Zhejiang University, Tsing-Hua University is drafted; The NCUC-BUS (Numerical controlsystems of machine tools Ptotocl specifications for NCUC-Bus fieldbus) that is developed jointly by companies such as control, Dalian silver dollars in Guangzhou numerical control, the Zhejiang is arranged.
Because each manufacturer releases different and has autonomous property right and be not compatible Industrial Ethernet mutually, this causes the equipment supplier if in the different Industrial Ethernet schemes that provide support, the hardware and software platform of supporting different Industrial Ethernet be arranged on a set of equipment.This makes the production cost of Equipment Manufacturing Supplier be multiplied.Fig. 1 is a traditional industry Ethernet structural representation in the prior art, CPU carries out transfer of data by the control Ethernet chip, wherein Ethernet chip comprises MAC (media level of access) and PHY (physical control layer), this implementation method can only be at different Industrial Ethernet, adopt different dedicated ethernet chips, flexibility is very poor.Fig. 2 is based on the traditional industry Ethernet structural representation of FPGA in the prior art, CPU realizes the transfer of data of Industrial Ethernet by control FPGA, wherein FPGA realizes IP (the intellectual property of Ethernet fieldbus, intellectual property), the inside comprises the MAC (media access control layer) and the control of other data link of Ethernet fieldbus.The Programmable Technology of FPGA makes Industrial Ethernet become flexibly and has customizability more, but owing to uses FPGA specialized configuration chip and collocation method to make the reconfigurability that disposes on the sheet be very restricted traditionally.A slice fpga chip will be joined the FPGA specialized configuration chip of a slice, and perhaps the multiple FPGA chip is joined a slice FPGA specialized configuration chip, but the function of these several fpga chips wants the same.Support the words of multiple Industrial Ethernet will use the very big FPGA of logical resource, the hardware cost expense is very big like this, or is exactly the special chip that directly adopts various Ethernet industrial bus, and hardware cost is higher.
Because above a variety of causes, support the case of multiple field bus protocol at present or be difficult to realize, or be exactly to have realized but hardware cost is very expensive.
The utility model content
The purpose of this utility model is to overcome the shortcoming and defect of prior art, proposes a kind of system that supports multiple field bus protocol, and this system can realize using a slice FPGA just can be to the support of multiple Industrial Ethernet fieldbus.
In order to reach above purpose, the utility model by the following technical solutions:
A kind of system that supports multiple field bus protocol, comprise CPU module, ethernet physical layer chip PHY, network transformer, RJ45 interface, described a kind of system of the total agreement in multiple scene that supports also comprises NOR_Flash memory, FPGA module and CPLD module; Described FPGA module is connected with CPU module, CPLD module and physical chip PHY respectively, described NOR_Flash memory, CPU module, CPLD module link to each other successively, and described ethernet physical layer chip PHY, network transformer and RJ45 interface link to each other successively.
Described NOR_Flash memory is used to store start-up code, working procedure and the FPGA modules configured file that comprises the CPU module, and some non-volatile other guide information.
Described FPGA module comprises: GSK_Link administration module, cpu i/f administration module, clock synchronization control module, MII scurry a mouthful register management module, ieee standard ethernet mac, data reception module, dual port RAM control module and data transmission blocks, and described GSK_Link administration module is scurried a mouthful register management module, standard ethernet MAC, data reception module, dual port RAM control module and data transmission blocks with cpu i/f administration module, clock synchronization control module, MII respectively and is connected; Described dual port RAM control module is connected with data transmission blocks with data reception module respectively.
Described phy chip PHY meets IEEE 802.3 standards.
Described CPLD module is used for the configuration driven circuit, and described configuration driven circuit comprises NOR_Flash memory, CPU module, CPLD module and the FPGA module that links to each other successively; Described CPLD module comprises IO pin nSTATUS, nCONFIG, CONF_DONE, DATAO, DCLK, nCSO and ASDI; Described FPGA module comprises IO pin nSTATUS, nCONFIG, CONF_DONE, DATAO, DCLK, nCSO and ASDI; IO pin nSTATUS, nCONFIG in the described CPLD module and CONF_DONE are respectively by drawing IO pin STATUS, nCONFIG and the CONF_DONE that is connected in the FPGA module, direct-connected respectively IO pin DATAO, DCLK, nCSO and the ASDI in the FPGA module of IO pin DATAO, DCLK, nCSO and the ASDI in the described CPLD module on the 10K Ohmic resistance.
A kind of implementation method of supporting multiple field bus protocol may further comprise the steps:
(1) by the CPU module to the access control of NOR_Flash memory, will generate the FPGA modules configured file storage of the various IP that comprise the Industrial Ethernet fieldbus in the NOR_Flash memory;
(2), from the NOR_Flash memory, read the FPGA modules configured file of different Industrial Ethernet by of the access control of CPU module to the NOR_Flash memory;
The FPGA modules configured file that (3) will read from the NOR_Flash memory is write in the CPLD module, and by the CPLD module FPGA module is configured;
(4) CPU module initialization to bus in FPGA block configuration success back transmits the device parameter of Industrial Ethernet and carries out the normal cycle Control on Communication.
CPLD module in the described step (3) specifically comprises the flow process that the FPGA module is configured:
(3-1) according to the requirement of configuration sequential, keeping the pin nCONFIG in the CPLD module when powering on and resetting is low level, and other IO pins are put ternary high resistant;
(3-2) reset after the CPLD module should produce a rising edge to its pin nCONFIG, start the FPGA block configuration, detect the nSTATUS signal of FPGA module then;
(3-3) the nSTATUS signal in the FPGA module is released when ready in that the FPGA module is normal, is pulled to high level by FPGA inside modules pull-up resistor, illustrates that at this time the FPGA module can accept configuration file;
When (3-4) detecting pin nSTATUS on the FPGA module and be high level, on the pin DCLK of CPLD module, produce configurable clock generator, send configuration data synchronously on the pin DATAO of corresponding CPLD module, configuration data is that unit is read from the data that the CPU module is write with the byte, sends with the pin DATAO of serial data stream mode from the CPLD module by shifting function;
After (3-5) total data is sent, detect the state of the pin CONF_DONE in the FPGA module, as being high level explanation configuration successful, as if configuration failure, repeating step (3-1)~(3-5).
The utility model has following advantage and beneficial effect with respect to prior art:
1, the utility model can be realized the support to multiple Industrial Ethernet by to the FPGA modules configured, makes deisgn product more flexible;
When 2, the utility model satisfies support to multiple Industrial Ethernet, the cost of economize on hardware resource;
3, the utility model can be visited the remote upgrade of CPU realization to hardware by standard ethernet, makes things convenient for the maintenance and the renewal of system.
Description of drawings
Fig. 1 is a traditional industry Ethernet structural representation in the prior art;
Fig. 2 is based on the traditional industry Ethernet structural representation of FPGA in the prior art;
Fig. 3 is a kind of structural representation of supporting the system of multiple field bus protocol of the utility model;
Fig. 4 is that CPLD module described in the utility model is configured module circuit diagram to the FPGA module;
Fig. 5 is the memory contents distribution map of NOR Flash memory described in the utility model;
Fig. 6 is a CPLD block configuration drive circuit flow chart described in the utility model;
Fig. 7 is the GSK_Link Ethernet fieldbus FPGA modular structure schematic diagram among the utility model embodiment;
Fig. 8 is a kind of method flow diagram of realizing multiple field bus protocol among the utility model embodiment.
Embodiment
Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but execution mode of the present utility model is not limited thereto.
Embodiment
As shown in Figure 3, the system that this is a kind of realizes multiple field bus protocol comprises CPU module, NORFlash memory, CPLD module, FPGA module and various Industrial Ethernet physical chip PHY and other peripheral components such as network transformer, RJ45 interface, described FPGA module is connected with CPU module, CPLD module and physical chip PHY respectively, described NOR_Flash memory, CPU module, CPLD module link to each other successively, and described ethernet physical layer chip PHY, network transformer and RJ45 interface link to each other successively.
Described NOR Flash memory is mainly stored start-up code and the configuration file of working procedure and FPGA, some the non-volatile other guide information in addition that comprise CPU;
Described CPLD module realizes the driving to the FPGA block configuration, comprises data time sequence control, format conversion, current control and check;
Described FPGA module includes the data interface module with the CPU module, the IP of Industrial Ethernet fieldbus (intellectual property, intellectual property) module and relevant Data Control and twoport management;
Described ethernet physical layer chip PHY realizes functions such as some MII interfaces, carrier wave detection, digital coding, the synthetic recovery of clock;
Described network transformer and RJ45 interface then are the data isolation and the Media Interface Connectors of Ethernet.
As shown in Figure 4, the configuration module circuit that the CPLD module is carried out the FPGA module, at first can read the FPGA modules configured file that is solidificated in NOR Flash memory by the CPU module, its file format can be sewed for tail and is forms such as .jic .sof .hex.It is bigger that NOR Flash memory is chosen capacity, the inside is except depositing the FPGA modules configured file that comprises various Industrial Ethernet, the start-up code and the working procedure of CPU module have also been solidified, as shown in Figure 5, the CPU module is carried out initialization after electrification reset after, select according to the user, read the corresponding FPGA configuration file that contains the Industrial Ethernet bus, write the CPLD module FPGA module is configured.
The CPLD block configuration drives the flow process flow chart, as shown in Figure 6, according to the requirement of configuration sequential, at first keeps the pin nCONFIG low level in the CPLD module when powering on and resetting during configuration, and other IO pins are put ternary high resistant.The CPLD module should produce a rising edge to its pin nCONFIG after resetting, and starts configuration, detects the nSTATUS signal in the FPGA module then.The nSTATUS signal is pulled to high level normal ready being released of FPGA by FPGA inside modules pull-up resistor, illustrates that at this time FPGA can accept configuration file.
Pin nSTATUS high level in detecting the FPGA module just can be provided and delivered on the pin DCLK in the CPLD module and be put clock, sends configuration data synchronously on the pin DATAO in the corresponding CPLD module.Configuration data is that unit is read from the data that the CPU module is write with the byte, sends with the pin DATAO of serial data stream mode from the CPLD module by shifting function.After total data is sent, detect the state of the pin CONF_DONE of FPGA module, as for high level illustrates configuration successful, otherwise configuration failure need be configured again.
For the FPGA module, with GSK_Link Ethernet fieldbus is example, support the FPGA internal frame diagram of GSK-Link, as shown in Figure 7, the FPGA module comprises: the GSK_Link administration module, the cpu i/f administration module, the clock synchronization control module, MII scurries a mouthful register management module, the ieee standard ethernet mac, data reception module, dual port RAM control module and data transmission blocks, described GSK_Link administration module respectively with the cpu i/f administration module, the clock synchronization control module, MII scurries a mouthful register management module, standard ethernet MAC, data reception module, dual port RAM control module and data transmission blocks are connected; Described dual port RAM control module is connected with data transmission blocks with data reception module respectively.
Described phy chip PHY meets IEEE 802.3 standards.
The cpu i/f administration module mainly manage and CPU module and FPGA module between data-interface, select read-write control, data flow con-trol etc. as address decoding.
Clock synchronization control module major function is the time synchronized of carrying out between the master-slave equipment.Because requiring between numerical control device such as the feed servo has strict clock synchronization, if the excessive processing parts that then can cause of the feed servo synchronous error of each Control Shaft is out of shape.The clock synchronization control module then can provide the function of delay measurements and clock synchronization, and the reference clock of periodic transfer is controlled to reach the synchronous coordination of each slave station.
Standard ethernet MAC provides the ethernet mac support of full standard.
MII serial ports register management module is by the administration module of MII to the physical chip internal register visit of Ethernet.Can set the pattern of Ethernet of work and relevant setting by this serial ports register management module, and detect the connection status etc. of network.
The dual port RAM control module then is the buffer memory that control received and sent data, ping-pong operation etc., and the read-write between the coordination data, the conflict that solves data access is to reach rapid and reliable data flow con-trol.
Data reception module mainly is to unpack with verification to the data that receive etc.
Data transmission blocks mainly is that the data that will send are packed and added check code etc.
The GSK-Link administration module then is to above several modules: the control of the coordination of cpu i/f administration module, clock synchronization control module, standard ethernet MAC, MII serial ports register management module, dual port RAM control module, data reception module and data transmission blocks.
With the ISE of the software QuartusII of altera corp or Xilinx the comprehensive file that generates the SOF file or be converted to extended formatting of compilings such as above FPGA module, pin assignment and temporal constraint.Opened the address and length can be write the corresponding memory address space of NORFlash memory to this document according to various call formats corresponding, used for the FPGA configuration.Be mapped to corresponding physical chip PHY by FPGA modules configured pin so and just can have set up the data communication networking hardware platform of support GSK_Link Ethernet fieldbus.
For the above, in like manner, this method is applicable to the support of other Ethernet fieldbus.By carrying out with the hardware high level description language from formulating design Industrial Ethernet module, perhaps buy intellectual property such as EtherNet/IP, EtherCAT or PowerLink etc. that the Industrial Ethernet IP property right of different vendor obtains to be correlated with, just the software that provides by FPGA manufacturer compiles the FPGA configuration file that comprehensively obtains containing different Industrial Ethernet to this intellectual property again.
Implement part for the CPU module software, the software flow state for the Industrial Ethernet part, begins electrification reset as shown in Figure 8, and CPU carries out necessary initialization to software, if the initialization failure then reinitializes; The initialization success is selected corresponding Industrial Ethernet bus with hardware condition according to demand; Selection finishes, and according to selection, obtains corresponding data format, file size and file and reads corresponding file at the start address of memory; The file that reads is write the buffering area of CPLD module, and notify and to be configured FPGA; If configuration failure is configured again,, this Industrial Ethernet is carried out initialization if successfully the init state that then enters Industrial Ethernet is finished in configuration; Initialization is finished then the equipment that is connected to this Industrial Ethernet is carried out the necessary parameter setting; It then is to enter normal cycle communication that setting is finished.
The foregoing description is the utility model preferred implementation; but execution mode of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under spirit of the present utility model and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within the protection range of the present utility model.
Claims (3)
1. system that supports multiple field bus protocol, comprise CPU module, ethernet physical layer chip PHY, network transformer, RJ45 interface, it is characterized in that the system of the total agreement in the multiple scene of described support also comprises NOR_Flash memory, FPGA module and CPLD module; Described FPGA module is connected with CPU module, CPLD module and physical chip PHY respectively, described NOR_Flash memory, CPU module, CPLD module link to each other successively, and described ethernet physical layer chip PHY, network transformer and RJ45 interface link to each other successively.
2. a kind of system that supports multiple field bus protocol according to claim 1, it is characterized in that, described FPGA module comprises the GSK_Link administration module, the cpu i/f administration module, the clock synchronization control module, MII scurries a mouthful register management module, the ieee standard ethernet mac, data reception module, dual port RAM control module and data transmission blocks, described GSK_Link administration module respectively with the cpu i/f administration module, the clock synchronization control module, MII scurries a mouthful register management module, standard ethernet MAC, data reception module, dual port RAM control module and data transmission blocks are connected; Described dual port RAM control module is connected with data transmission blocks with data reception module respectively.
3. a kind of system that supports multiple field bus protocol according to claim 1, it is characterized in that, described CPLD module is used for the configuration driven circuit, and described configuration driven circuit comprises NOR_Flash memory, CPU module, CPLD module and the FPGA module that links to each other successively; Described CPLD module comprises IO pin nSTATUS, nCONFIG, CONF_DONE, DATAO, DCLK, nCSO and ASDI; Described CPLD module comprises IO pin nSTATUS, nCONFIG, CONF_DONE, DATAO, DCLK, nCSO and ASDI; Described FPGA module comprises IO pin nSTATUS, nCONFIG, CONF_DONE, DATAO, DCLK, nCSO and ASDI; IO pin nSTATUS, nCONFIG in the described CPLD module and CONF_DONE are respectively by drawing IO pin STATUS, nCONFIG and the CONF_DONE that is connected in the FPGA module, direct-connected respectively IO pin DATAO, DCLK, nCSO and the ASDI in the FPGA module of IO pin DATAO, DCLK, nCSO and the ASDI in the described CPLD module on the 10K Ohmic resistance.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101963808A (en) * | 2010-10-21 | 2011-02-02 | 广州数控设备有限公司 | System supporting various field master protocols and implementation method thereof |
CN102402203A (en) * | 2011-11-14 | 2012-04-04 | 配天(安徽)电子技术有限公司 | System and method for controlling numerical control machine |
CN102591836A (en) * | 2012-01-20 | 2012-07-18 | 华为技术有限公司 | Configuration method and configuration device for communication connector personal identification number (PIN) foot |
CN105388982A (en) * | 2015-11-16 | 2016-03-09 | 中国电子科技集团公司第十研究所 | Multiprocessor power-on reset circuit |
CN105404211A (en) * | 2015-12-17 | 2016-03-16 | 中国电子信息产业集团有限公司第六研究所 | Coupling communication plate based on EtherCAT technology |
CN108156098A (en) * | 2017-12-12 | 2018-06-12 | 交控科技股份有限公司 | A kind of communications network system based on POWERLINK |
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2010
- 2010-10-21 CN CN2010205702898U patent/CN201860344U/en not_active Expired - Lifetime
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101963808A (en) * | 2010-10-21 | 2011-02-02 | 广州数控设备有限公司 | System supporting various field master protocols and implementation method thereof |
CN101963808B (en) * | 2010-10-21 | 2012-03-07 | 广州数控设备有限公司 | Implementation method of system supporting various field master protocols |
CN102402203A (en) * | 2011-11-14 | 2012-04-04 | 配天(安徽)电子技术有限公司 | System and method for controlling numerical control machine |
CN102402203B (en) * | 2011-11-14 | 2014-09-17 | 配天(安徽)电子技术有限公司 | System and method for controlling numerical control machine |
CN102591836A (en) * | 2012-01-20 | 2012-07-18 | 华为技术有限公司 | Configuration method and configuration device for communication connector personal identification number (PIN) foot |
CN105388982A (en) * | 2015-11-16 | 2016-03-09 | 中国电子科技集团公司第十研究所 | Multiprocessor power-on reset circuit |
CN105388982B (en) * | 2015-11-16 | 2019-01-08 | 中国电子科技集团公司第十研究所 | Multiprocessor electrification reset circuit |
CN105404211A (en) * | 2015-12-17 | 2016-03-16 | 中国电子信息产业集团有限公司第六研究所 | Coupling communication plate based on EtherCAT technology |
CN108156098A (en) * | 2017-12-12 | 2018-06-12 | 交控科技股份有限公司 | A kind of communications network system based on POWERLINK |
CN108156098B (en) * | 2017-12-12 | 2020-12-29 | 交控科技股份有限公司 | Communication network system based on POWERLINK |
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