PROFINET the Industrial Ethernet standard. Siemens AG 2013. Alle Rechte vorbehalten.

the Industrial Ethernet standard

is 100% Ethernet is Ethernet Ethernet is the established standard in the IT world for fast exchange of data (IEEE 802.3) is always full duplex simultaneous communication in two directions 100 MBit/s Controller As comparison: PROFIBUS One line to which all nodes are connected Performance directly dependent on number of nodes Master 100 MBit/s 100 MBit/s full duplex is always "switched Ethernet Slaves Switches connected into a line Distribution of network load can be influenced using topology Devices completely uses all possibilities offered by Ethernet Seite 2

The basic principle of Ethernet communication: nesting of data in message frames Layer The OSI layer model for structured communication Services 7 6 Application Presentation HTTP, FTP, SMTP, SNMP, etc. Web pages, mails, live pictures, network information, etc. 5 Session 4 Transport TCP, UDP TCP header Application data 3 Network IP IP header TCP header Application data 2 1 Data link Physical Ethernet, LLDP Ethernet header Ethernet header IP header header TCP header Application data Application data Ethernet trailer Ethernet trailer Maximum performance with retention of Ethernet standards Seite 3

Mechanisms for real-time communication in Separate channels for IO data and TCP/IP Performance and deterministic behavior through priority assignment of I/O data Openness for every type of Ethernet communication TCP, UDP, IP, etc. Integration of Ethernet devices in machines and systems (Webcam, network printer, etc.) Time scheduling Send cycle IO data TCP/IP Next cycle 1 2 n-1 n 1 2 n-1 n Open for any communication Real-time and standard on one cable = totally integrated uniformity Seite 4

This is my way provides more flexibility, efficiency and performance in your application Flexibility Efficiency Performance Tailor-made plant concepts Optimal use of resources Increased productivity Industrial Wireless LAN One cable for all purposes Speed Safety Device/network diagnostics High precision "With we are able to implement new machine and plant concepts, making us more competitive This is my way!" Flexible topologies Open standard Web tools Expandability Easy Energy cabling efficiency Easy cabling Fast device replacement Ruggedness/stability Large quantity structures High transmission rate Media redundancy Fast start-up Seite 5

" is pure flexibility." Highest flexibility for tailor-made plant concepts Flexibility Tailor-made plant concepts Industrial Wireless LAN (Redundant) Ring Line Safety "We have a large number of moving sections in our production plant. I need maximum flexibility for this and that s what guarantees." Flexible topologies Open standard Web tools Expandability Tree PROFIsafe Star Wireless communication (IWLAN) Seite 6

What flexibility stands for Industrial Wireless LAN Wireless connection of remote or mobile machine and plant components Support of Safety communication Mobile operating concepts Flexibility (Redundant) ring Tree PROFIsafe Line Star Wireless communication (IWLAN) Flexible topologies Line topology and redundant ring structures for less cabling and easy commissioning Innovative new concepts like I-Device and Shared Device for intelligent architectures Tailor-made plant concepts Industrial Wireless LAN Safety Flexible topologies Web tools Open standard Direct access to diagnostic information via standard web browser (without Step7) Individually adaptable maintenance concepts due to user-defined web pages Web tools Expandability Seite 7

"Everything runs through one cable with and that is very efficient." More efficiency ensures optimum use of resources Efficiency Optimal use of resources Web cam HMI device Controller Diagnostic data Safetyoriented data "Everything runs through one cable with. That makes it really efficient for me." One cable for all purposes Device/network diagnostics Easy Energy cabling efficiency Easy cabling Fast device replacement Ruggedness/stability Access Point CNC Controller Client Modules PROFIsafe Motion Control Field device PROFIenergy Drive IO data Data for energy efficiency TCP/IP data (Web) Seite 8

What efficiency comprises One cable for all purposes Integration from control level to field device with Ethernet Cost reduction due to less cabling overhead Efficiency Energy efficiency Significant energy savings even in short breaks due to selective switching Full availability created at end of break Optimum utilization of resources One cable for all purposes Device/network diagnostics Easy Energy cabling efficiency Fast device replacement No programming tool and engineering personnel required for device replacement in case of maintenance Reduction of standstill time Easy cabling Fast device replacement Ruggedness/stability Seite 9

"I only get real performance with." High performance increases your productivity. Performance Increased productivity Speed Application Robot Presses Warehouse and logistics Packaging machines Printing presses Machine tools Production lines Power reserve Bus cycle High precision 10ms 1ms 100 s 10 s "High speed by itself is not everything. is not only faster but can also do more." Large quantity structures High transmission rate Media redundancy Fast start-up Communication mechanisms TCP/IP Real Time up to 250 s Isochronous Real Time up to 31.25 s Seite 10

What performance means to us Speed Isochronous real-time mode for time critical and precise applications Capability to reduce the cycle time down to 31.25µs Performance Switches connected into a line 100 Mbit/s 100 Mbit/s 100 Mbit/s full duplex High transmission rate By using Ethernet, significantly higher transmission rate than previous fieldbuses Parallel operation of data-intense applications without effect on I/O data transfer Fast start-up Modular concept without waiting periods due to faster detection of devices by the controller Faster and more productive tool changers Increased productivity Speed High precision Large quantity structures High transmission rate Media redundancy Fast start-up Seite 11

Increase of performance with PROFIBUS or? PROFIBUS Bus cycle time Baud rate 12MBit/s 100MBit/s Cycle time Min. 300µs Min. 31.25µs Jitter <1µs <1µs # Devices in a line 128 100 Seite 12 My PROFIBUS experience also enabled me to set up the solution without problems. In doing so, I discovered the many benefits of. PROFIBUS 1.5 MBit PROFIBUS 12 MBit offers a significant performance gain # Devices per Controller 125 256 # Devices per rack 1625 3 Onboard IF + 10 CPs 768 1 Onboard IF + 4 CPs IO data n/a Max. 50% = 1.500Byte bei 250µs TCP/IP etc. n/a Min. 50% = 1.500Byte bei 250µs

and cost savings at the same time Transition form PROFIBUS to PROFIBUS Configuration Interface Devices Bitrate min TSDR 1: DP 28x ET200S 12MBit 10ms 2: MPI/DP 17x ET200S 1,5MBit 7,8ms 3: IF 28x FU 4: IF 20x FU 12MBit 10ms 12MBit 10ms Configuration Interface Devices Cycletime 1: PN 45x ET200S 71x FU 1 and 2 ms 1-2 ms 5: CP ext 23x FU 1,5MBit 7,9ms 7-10 ms Seite 13

the best of PROFIBUS and Ethernet TCP/IP Safety TCP/IP IO Safety Synch Energy Manag. IO Strengths of PROFIBUS IO communication Safety Diagnosis Sync Energy Manag. Strengths of Ethernet High data rate Wireless Flexible topologies combines proven principles of PROFIBUS with new features of Ethernet Seite 14

New possibilities increase efficiency thanks to Savings on Hardware Shared Device 2 Controllers have access to 1 IO Device Simplified Engineering IO controller 1 Increase of efficiency with new innovative architectures and real networks I-Device Intelligent IO device Controller 2 is device for Controller 1 Hierarchical structures CPU1 IO device 1 CPU2 IO controller 2 IO device 2 I-Device Combined Advantages I-Device + Shared Device Seite 15

Easy access to diagnosis information with web tools System Online diagnosis Integrated Web Server System Online topology Easy access via browser No engineering tool needed Online network diagnosis Read/write process variables (quick machine parameters setting) Process User defined web pages Seite 16

Isochronous real-time Reservation of bandwidth for Ethernet IRT channel Standard channel IRT channel Standard channel IRT channel Cycle 1 Cycle 2 = time window Cycle n i.e. position controller 1 ms Isochronous communication IRT data RT communication RT data Standard communication TCP/IP data IRT channel Seite 17 Separate time window reserved only for IRT frames Standard frames cannot interrupt IRT cycle Additional communication planning through topology for maximum performance with isochronous applications

Unique selling proposition of : real-time and TCP/IP PC Internet Explorer HTTP SNMP Socket TCP/UDP IP PLC Real-time RT IRT field device Ethernet ERTEC cable PC SNMP/OPC server Sensor system PLC Seite 18

uses the full bandwidth with full duplex 1 2 n Simultaneous sending and receiving Almost complete utilization of physically possible transmission bandwidth Extremely short cycle times with consideration of topology Outputs 1 1 2 2 n-1 n n-1 n 1 1 2 2 n-1 n n-1 n Inputs Seite 19

Isochronous mode Perfect synchronism Isochronous recording of actual position values Communication cycle Isochronous activation of setpoints Controller Field device Motion Control Drive IRT channel Synchronization of control cycles with the bus cycles Closing of the control loops over the bus Distributed motion control tasks (longitudinal shaft, axis synchronization, multi-axis applicati Seite 20

Timing with isochronous mode absolutely deterministic System cycle T i : Read inputs at fixed point in time Q OB I Q OB I Q OB I OB: Process data in the CPU T i T o T o : Write outputs at fixed point in time CPU All time windows coordinated in the appropriate sequence Input Output ET 200S ET 200S Seite 21

Thank you for your attention! Wolfgang Schroeder Product Manager Technology I IA AS FA SB-PRM6 Telefon: +49 911 895-4633 E-Mail: wolfgang.schroeder@siemens.com Siemens AG 2011. Alle Rechte vorbehalten.