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Design Tradeoffs in Industrial Ethernet Hardware Implementations (1)

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Renesas Electronics America Inc. © 2012 Renesas Electronics America Inc. All rights reserved. Design Tradeoffs in Industrial Ethernet Hardware Implementations © 2012 Renesas Electronics America Inc. All rights reserved.2 Renesas Technology & Solution Portfolio © 2012 Renesas Electronics America Inc. All rights reserved.3 Microcontroller and Microprocessor Line-up Wide Format LCDs  Industrial & Automotive, 130nm  350µA/MHz, 1µA standby 44 DMIPS, True Low Power Embedded Security, ASSP 165 DMIPS, FPU, DSC 1200 DMIPS, Performance 1200 DMIPS, Superscalar 500 DMIPS, Low Power 165 DMIPS, FPU, DSC 25 DMIPS, Low Power 10 DMIPS, Capacitive Touch  Industrial & Automotive, 150nm  190µA/MHz, 0.3µA standby  Industrial, 90nm  200µA/MHz, 1.6µA deep standby  Automotive & Industrial, 90nm  600µA/MHz, 1.5µA standby  Automotive & Industrial, 65nm  600µA/MHz, 1.5µA standby  Automotive, 40nm  500µA/MHz, 35µA deep standby  Industrial, 40nm  200µA/MHz, 0.3µA deep standby  Industrial, 90nm  1mA/MHz, 100µA standby  Industrial & Automotive, 130nm  144µA/MHz, 0.2µA standby 2010 2012 32-bit8/16-bit © 2012 Renesas Electronics America Inc. All rights reserved.4 Renesas – Enabling The Smart Factory  Challenge: “Standard enterprise TCP/IP protocol does not provide the deterministic communication required in today’s Smart Factory. Equipment OEMs are migrating to Industrial Ethernet technologies, however, selecting the right protocol is only the first consideration.”  Solution: “This session will provide an overview of Industrial Ethernet implementations and highlight the considerations and tradeoffs from a system level and device requirements. You will learn how Renesas MCUs and intelligent PHYs are the ideal solution to support different protocols, and how we leverage our strong partner ecosystem” © 2012 Renesas Electronics America Inc. All rights reserved.5 Agenda  How Is Industrial Ethernet Different?  Industrial Ethernet Protocol Architectures  Considerations In Implementing Your Industrial Ethernet Solution  Renesas Solutions for Industrial Ethernet  Summary © 2012 Renesas Electronics America Inc. All rights reserved.6 PLC/PACs & DCS Industrial Drives & Motion Controllers I/O Modules Gateways & Switches Sensors & Actuators HMIs & Operator Interfaces Smart Factory Devices Are Interconnected Improve Efficiency Lower Operating Costs Safe Environment © 2012 Renesas Electronics America Inc. All rights reserved.7 Industrial Networks Need Fast Cycle Times and Efficient Delivery 100ms 10ms <250 µS Typical Cycle Time Enterprise Process Device Enterprise Network • High Data Throughput • Non-deterministic • Fault Tolerant • Focus is on bandwidth Industrial Network • Efficient data throughput • Deterministic / “Real Time” • High Reliability • Robustness vs. © 2012 Renesas Electronics America Inc. All rights reserved.8 Industrial Communications Takes Many Forms  Backplane communication  In PLCs/PACs to communicate between the Master CPU card and I/O modules  Industrial Networks  Industrial Ethernet that supports realtime protocols  Safety communication  Dedicated channels for safe sensors and switches  Sensor & Encoder interface  Slower sensor interfaces that react to condition changes  Motor encoders that deliver position and speed, as well as motor condition  HMI communication  Serial communication for operator interface Multi-Axis Drive System PLC Backplane Industrial Ethernet Fieldbus industrial Ethernet HMI Safety Sensor CANopen Slice I/O Encoder/ or Resolver CANopen CANopen Slice I/O AC Servo Linear Motors © 2012 Renesas Electronics America Inc. All rights reserved.9 Factories Migrating to Ethernet-Based Networks FIELDBUS INDUSTRIAL ETHERNET Device Level Control Level Information Level Enterprise Level Ethernet  Low Cost  Robust  Deterministic  Scalable Open Standards © 2012 Renesas Electronics America Inc. All rights reserved.10 How Is Industrial Ethernet Different?  Real Time Protocol over Ethernet  Uses UDP/IP with object identifications  Hard real-time: Utilizes ISO/OSI model Layer 2 – 4 to implement modified Ethernet MAC and real-time protocol  Deterministic Performance  Assurance that data is received by the slave device  Synchronized  Timing between packets and the process are tightly coupled  Redundant  Measures taken so that packets can be rerouted if needed  Interoperability  Requires that a standard protocol will work with other slave devices Cabling (as defined by Ethernet + rugged connectors) Ethernet TCP / UDP / IP Non Real Time Ethernet Real Time Protocol Real Time Protocol Non Real Time Using 802.3 On Top of TCP/IP On Top of Ethernet Modified Ethernet Ethernet Modified Ethernet Enterprise Process Device TCP / UDP / IP Real Time Protocol “NRT” “RT” “IRT” Non-Real Time Real Time Isochronous or Hardware Real Time [...]... ASSP Hardware Assisted Industrial Ethernet Development Considerations 17 © 2012 Renesas Electronics America Inc All rights reserved Typical Multi-Chip Industrial Control System With Networking  Microcontroller/MPU/DSP     Manages the application Algorithm processing Analog input/output Backplane/Bus interface  FPGA extension     Processor offload I/O extension Glue Logic High speed interface... America Inc All rights reserved Cable diagnosis Stand Alone Initialization Intelligent Ethernet PHY For Industrial  Low node latency and low jitter  Fast link-up time and fast link-down detection  Multiple cable monitoring and diagnostics features  Bit Error Counter due to open cable, single short, etc  TDR (time domanin reflectometry) detects location of cable fault  EMC immunity  Tests according... Where do you begin?  30 © 2011 Renesas Electronics America rights reserved 30© 2012 Renesas Electronics America Inc All Inc All rights reserved Hardware and/or software reference Industrial Networking Design Considerations Summary  Multiple hardware choices are available  Weigh the features and cost tradeoffs between the various architecture options: MCUs, ASICs, ASSPs, FPGAs or integrated solutions... Network IP Data Link Standard Ethernet MAC Controller Hardware Physical  Known protocols NRT -HTTP -SNMP -DHCP Transport  RTOS independent  Unmodified Ethernet hardware MAC Application IT tasks OSI Model Layers PHY Slave Device Architecture  Parameter Data and Control Data on the same channel Industrial Ethernet Slave Architecture Real Time (RT) Software  TCP/UDP/IP controlled by timing layer Application... implementing safety?  Business models impact your costs 31 © 2012 Renesas Electronics America Inc All rights reserved Considering The PHY Level EtherPHY Must Fulfill Industrial Networking Requirements Requirements for Ethernet PHY’s Industrial market needs Real time communication Low latency Faster start up time Cable monitor/ BER Counter Error free communication Fast link down time Problem Debug... Switch IP Included $10K (NRT protocols) MCU only $5 NRE + Per Device $10K + $5/slave 2-4 months SW Programmers HW Designers Single-Sourced ASIC Supplier Included Software Stack/API MCU 24 SW Programmers HW Designers FPGA Designers IP Partners Included ASIC 4-6 months Resource Included Switch IP Development Time © 2012 Renesas Electronics America Inc All rights reserved 2-4 months SW Programmers HW Designers... Safety considerations?  Completeness of solution     19 HW solutions: MCU, ASIC, ASSP, even Ethernet PHYs Software solutions: Protocol stacks TCP/IP, Industrial Ethernet Business model fit Reference solutions – how do I get started? © 2012 Renesas Electronics America Inc All rights reserved Industrial Ethernet Implementation Differences MCU MCU Configuration MCU + ASIC MCU ASIC PHY PHY MCU + FPGA... Transport  Uses slot timing for real time performance  Unmodified Ethernet hardware MAC  Known protocols RT 14 © 2012 Renesas Electronics America Inc All rights reserved Paramet er Data -HTTP -SNMP -DHCP Network Data Link Physical Real Time Data Automation API TCP/UDP Process Data Protocol IP Hardware  Needs fast forwarding of frames Data Application IT tasks Timing Layer Standard Ethernet MAC Controller... implementations 27 © 2012 Renesas Electronics America Inc All rights reserved Designing For Safety Safety Over EtherCAT Diagram  Safety requires an independent channel  Switching to safety-related commands and messages at the highest priority  Extension to protocol definitions – PROFIsafe, Safety Over EtherCAT, CIP Sync Safety, etc  Designing -in redundancy  IEC61508 (Functional Safety) requires... and operation     28 CRC checksum Independent watchdog Complex interrupt control Cable diagnosis (PHY layer) © 2012 Renesas Electronics America Inc All rights reserved Building For Redundancy External Checker MCU Two MCUs with HW Safety Features Compare eWD MCU MCU Safety In Hardware Assists In Compliance Memory Dedicated Independent Clock System Data Management Interrupt Controller Zero-Wait Flash . Electronics America Inc. All rights reserved.5 Agenda  How Is Industrial Ethernet Different?  Industrial Ethernet Protocol Architectures  Considerations In Implementing Your Industrial Ethernet Solution . Electronics America Inc. © 2012 Renesas Electronics America Inc. All rights reserved. Design Tradeoffs in Industrial Ethernet Hardware Implementations © 2012 Renesas Electronics America Inc. All rights. Servo Linear Motors © 2012 Renesas Electronics America Inc. All rights reserved.9 Factories Migrating to Ethernet- Based Networks FIELDBUS INDUSTRIAL ETHERNET Device Level Control Level Information Level Enterprise

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