1 / 23

PROFI

PROFI. net. ... More than just Ethernet. Quo Vadis Automation. PLC. PLC. PLC. PC. Intelligent Field Devices. PC. 1990. 2000. 2010. central yesterday. decentral today. distributed tomorrow. Mega Trends in Automation. Trend I: Control Systems. Trend II: Automation Structures.

macon
Download Presentation

PROFI

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. PROFI net ... More than justEthernet

  2. Quo Vadis Automation

  3. PLC PLC PLC PC Intelligent Field Devices PC 1990 2000 2010 central yesterday decentral today distributed tomorrow Mega Trends in Automation Trend I: Control Systems Trend II: Automation Structures

  4. ERP Ethernet Automati-sierungs- System Field Level Interfaces The Mega Trends are the Basis for PROFInet Mega Trends in Automation Trend III: IT technologies and automation grow together • Conistent communication for vertical integration • Data access from from the corporate management level (ERP) through to fied level Trend IV: Use of open standards in automation • Fieldbus PROFIBUS • Ethernet TCP/IP, UDP • OPC, XML, COM/DCOM, ActiveX • Object Oriented Design • MS Office Applications

  5. No data and engineering interface at different bus systems available Fieldbus technology defines the interface for data exchange, but no interface for engineering is defined Vendor A Production Cell A Vendor B Production Cell B Vendor C Production Cell C Profibus Profibus Feldbus X Engineering-Situation today Production Control Engineering Interface Engineering Interface Data Interface Data Interface

  6. Large overhead costs for all participants (users, OEMs, integrators) for: • coordination • documentation • implementation • commisioning appr. 15 % Savings Engineering – currently the greatest potential savings in automation engineering 60 % Engineering 15 % Software 25 % Hardware Engineering Savings with PROFInet

  7. PROFInet Requirements for PROFInet 1. Taking into account the Mega Trends in automation + 2. Time and cost reduction through vendor-independent, plant-wide engineering

  8. Object Model for a PROFInet Componet Process Module Mechanical Filling Combination into a PROFInet- Componet Reset Clock Ready Start Run End Start Error Electrical/Electronics Logic/Software How PROFInet Acts

  9. Engineering Interface Generation of a PROFInet Component Data Interface Information Connection of Components Filling Bottle Cleaning Configuration Sequence with PROFInet Vendor B Filling Vendor A Bottle Cleaning PROFIBUS PROFIBUS

  10. PROFInet Connection Editor Vendor specific Vendor specific Vendor specific Programming Programming Programming Configuration Configuration Configuration Parametrization Parametrization Parametrization Vendor C Vendor B Vendor A Fieldbus X PROFIBUS PROFIBUS The PROFInet Engineering: vendor independent, centralized, plant wide Vendor independent

  11. PROFInet Connection Editor Componer Interface Vendor A Componer Interface Vendor C Componer Interface Vendor B Generation and Interconnection of Components Vendor Specific Programming and Configuration Tools XML-File

  12. Loading of the linking information Transfer to PROFInet Devices

  13. Vendor A Vendor B Ethernet DCOM / COM TCP / UDP IP Ethernet Vendor C Proxy PROFIBUS PROFInet Communications

  14. Engineering, HMI Proxy Intelligent Field Device Controller Controller Engineering,HMI Field Device Drive Integration of PROFIBUS-Segments into PROFInet Ethernet Fieldbus X PROFIBUS Openness Safe Investment

  15. Engineering • plant wide • vendor independent Communication • open • transparent • with PROFIBUS • with Ethernet • with IT-Standards PROFInet Distributed Automation • object-oriented • based on components PROFInet defines the standard for data exchange between intelligent devices • of different vendors • on Ethernet and PROFIBUS • through parameterization The PROFInet Scope

  16. Communication Link from Office to Production Ethernet Vendor A Bottle Cleaning Vendor B Filling PROFIBUS PROFIBUS PROFIBUS Reduction in Enginnering Vendor B Vendor A Increased flexibility resulting from more modular design PROFInet – Your Benefits

  17. Run-Time Software of a PROFInet Device PROFInet Device • Uniform PROFInet Run-Time Kernel • Independent of the operating system • Build on standard communication mechanisms • Standardized interfaces Application Engineering Operating System PROFInet Run Time TCP / IP, UDP, Ethernet

  18. PROFInet - The PI Offering PROFInetSoftware Specification PROFInet Support by Competence Centers Test and Certification

  19. Connection Technology PROFInet I/O FDT / DTM Technology Future Profiles Network Manage-ment Intrinsic Safety PROFInet Marketing Web- Integration Safety- Technology PROFInet – Structure of Working Groups Core Team – PROFInet

  20. PROFInet – Current Status Specification work for PROFInet stage 1 is completed; specification is published, www.profibus.com. PROFInet are implemented and tested for Windows and Vx Works systems. The companies of the core team are currently integrating PROFInet into the first pilot products. PROFInet was shown in a multi-vendor presentation at the Hannover trade fair 2001.

  21. Specification and Run -Time Software are completed PROFInet - Time Schedule Stufe 1: Stufe 2: Parameterization, Comissioning, Diagnostics Real Time Ethernet Quality of Services Stufe 3: Event- Mechanisms Web- Integration Network-Management

  22. PROFI net PROFIBUS PROFI Ethernet net

  23. PROFI net ... More than justEthernet

More Related