User Manual Stratix 5700 Ethernet Managed Switches
Important User Information Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.
Summary of Changes This manual contains new and updated information. Changes throughout this revision are marked by change bars, as shown to the right of this paragraph. New and Updated Information This table contains the changes made to this revision.
Summary of Changes Notes: 4 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Table of Contents Preface Studio 5000 Environment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Access Product Release Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Additional Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 Chapter 1 About the Switches Switch Catalog Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents ArmorStratix 5700 Switch Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installation Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Install or Remove the SD Card (optional) . . . . . . . . . . . . . . . . . . . . . . Verify Switch Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Mount the Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Resilient Ethernet Protocol . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . REP Open Segment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . REP Ring Segment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Access Ring Topologies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Link Integrity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Configure NAT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Create NAT Instances for Traffic Routed through a Layer 3 Switch or Router . . . . . . . . . . . . . . . . . . . . . . . . . . . Create NAT Instances for Traffic Routed through a Layer 2 Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Configure Traffic Permits and Fixups . . . . . . . . . . . . . . . . . . . . . . . . . Configure Port Security .
Table of Contents Port Security. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Port Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Port Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cable Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DHCP Pool Display . . . . . . . .
Table of Contents Module-defined Input Data Type (20-port Gb switches) . . . . . . . . . . . Module-defined Input Data Type (18-port Gb switches) . . . . . . . . . . . Module-defined Output Data Type (18-port Gb switches). . . . . . . . . . Module-defined Input Data Type (20-port Gb switches) . . . . . . . . . . . Module-defined Output Data Type (20-port Gb switches). . . . . . . . . . Module-defined Input Data Type (20-port switches) . . . . . . . . . . . . . . .
Preface This publication describes the embedded software features and tools for configuring and managing the Stratix 5700™ Ethernet managed switches. In addition, this publication provides troubleshooting information to help you resolve basic switch and network issues. Use this manual if you configure and monitor Stratix 5700 Ethernet managed switches.
Preface Access Product Release Notes Product release notes are available online within the Product Compatibility and Download Center. 1. From the Quick Links list on http://www.ab.com, choose Product Compatibility and Download Center. 2. From the Compatibility Scenarios tab or the Get Downloads tab, search for and choose your product. 3. Click the download icon 12 to access product release notes.
Preface Additional Resources These documents contain additional information concerning related products from Rockwell Automation. Resource Description Stratix Ethernet Managed Switches Technical Data, publication 1783-TD001 Provides specification information for the switches. Ethernet Design Considerations Reference Manual, publication ENET-RM002 Provides information about implementing a system based on the EtherNet/IP platform.
Preface Notes: 14 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Chapter 1 About the Switches Topic Page Switch Catalog Numbers 16 Switch Software Features 17 Stratix 5700 Switch Dimensions 18 ArmorStratix 5700 Switch Dimensions 21 Switch Front Panel 22 Switch Hardware Features 22 SD Card 23 Switch Memory Allocation 25 Device Manager Web Interface 26 Studio 5000 Environment 27 Cisco Network Assistant 27 Command Line Interface 28 Stratix 5700 Ethernet managed switches provide a secure switching infrastructure for harsh environments.
Chapter 1 About the Switches Switch Catalog Numbers Catalog Number These switches are available with either lite or full firmware.
About the Switches Catalog Number Chapter 1 Description Power Supply 1606-XL series (recommended) Class 2, 24V DC output power supplies 1606-XLP series (recommended) or equivalent SD Card 1784-SD1 Switch Software Features Feature 1 GB Industrial SD card These software features are available with the Stratix 5700 switches.
Chapter 1 About the Switches Feature Lite Firmware Full Firmware Compatible with Cisco tools: Cisco Network Assistant (CNA); CiscoWorks • • EtherNet/IP (CIP) interface • • Network address translation (NAT) Separate option These diagrams are representative of the switches. Actual faceplates vary depending on the catalog number.
About the Switches 10-port Switch 1783-BMS10CGP, 1783-BMS10CGN 10-port Switches 1783-BMS10CL, 1783-BMS10CA, 1783-BMS10CGL, 1783-BMS10CGA 9.14 cm (3.6 in.) 9.14 cm (3.6 in.) 12.95 cm (5.1 in.) 12.95 cm (5.1 in.) 11.67 cm (4.59 in.) 10.92 cm (4.3 in.) Chapter 1 13.58 cm (5.345 in.) 0.75 cm (0.29 in.) 12.83 cm (5.05 in.) Rockwell Automation Publication 1783-UM004E-EN-P - June 2014 0.75 cm (0.29 in.
Chapter 1 About the Switches 18- and 20-port Switches 1783-BMS12T4E2CGNK, 1783-BMS12T4E2CGP, 1783-BMS12T4E2CGL, 1783-BMS20CL, 1783-BMS20CA, 1783-BMS20CGL, 1783-BMS20CGP, 1783-BMS20CGN, 1783-BMS20CGPK 12.70 cm (5.0 in.) 12.95 cm (5.1 in.) 13.58 cm (5.345 in.) 12.83 cm (5.05 in.) 20 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014 0.75 cm (0.29 in.
About the Switches Chapter 1 ArmorStratix 5700 Switch Dimensions 16-port Switches 1783-ZMS16TA, 1783-ZMS8T8E2TGP 8-port Switches 1783-ZMS8TA, 1783-ZMS4T4E2TGP 23.75 cm (9.35 in.) 30.09 cm (11.85in.) 24.38 cm (9.6 in.) 24.38 cm (9.6 in.) 32492 32493 24-port Switch 1783-ZMS24TA 37.46 cm (14.75in.) 24.38 cm (9.6 in.
Chapter 1 About the Switches Switch Front Panel The switch front panel contains the ports, status indicators, and power and relay connectors. These diagrams are representative of the switch front panels. Actual front panels vary depending on the catalog number. ArmorStratix 5700 Switch Stratix 5700 Switch 32495 32276-M Switch Hardware Features These hardware features are available with the switches.
About the Switches Chapter 1 Feature Description 100BASE-FX/SX ports The IEEE 802.3-2002 100BASE-FX ports provide full-duplex, 100 Mbps connectivity over multi-mode fiber (MMF) cables. These ports use a built-in, small-form-factor fixed (SFF) fiber-optic transceiver module that accepts a dual LC connector. 1000BASE-FX/SX ports The IEEE 802.3-2002 1000BASE-FX ports on some models provide full-duplex, 1 Gbps connectivity over multi-mode fiber (MMF) cables.
Chapter 1 About the Switches If you start from the SD card and then remove it while the switch is running, the following conditions apply: • The Device Manager Web interface is no longer be accessible. • Changes made by using the CLI or the AOP take effect, but are not saved when the switch is restarted. • If the SD card is reinserted into the slot, changes are not saved to the card unless new changes are made. Then the entire configuration is saved to the card.
About the Switches Switch Memory Allocation Chapter 1 The following table provides details on default memory allocation for the switches. You can use SDM templates to configure system resources in the switch to optimize support for specific features, depending on how the switch is used in the network. You can select a template to provide maximum system usage for some functions; for example, use the default template to balance resources, and use access template to obtain maximum ACL usage.
Chapter 1 About the Switches Device Manager Web Interface You can manage the switch by using the Device Manager Web interface to configure and monitor the switch. The Device Manager Web interface is a graphical device management tool for configuring, monitoring, and troubleshooting individual switches. The Device Manager Web interface displays real-time views of switch configuration and performance.
About the Switches Studio 5000 Environment Chapter 1 You can manage the switch by using the Logix Designer application in the Studio 5000 environment. The Logix Designer application is IEC 61131-3 compliant and offers relay ladder, structured text, function block diagram, and sequential function chart editors for you to develop application programs.
Chapter 1 About the Switches Command Line Interface You can manage the switch from the command line interface (CLI) by connecting your personal computer directly to the switch console port or through the network by using Telnet. To access the CLI through the console port, follow these steps. 1. Connect to the console port in one of these ways: • Use a RJ45-to-DB-9 adapter cable (not supplied with the switch) to connect to the standard 9-pin serial port on a personal computer.
Chapter 2 Switch Installation Topic Page Stratix 5700 Switch Installation 30 Installation Guidelines 31 Install or Remove the SD Card (optional) 33 Verify Switch Operation 34 Mount the Switch on a DIN Rail 36 Remove the Switch from the DIN Rail 38 Ground the Switch 38 Wire the Switch DC Power Source 40 Attach the Switch Power Connectors 43 Wire the Power over Ethernet DC Power Source 44 Attach the PoE Power Connector 46 Install an SFP Module (optional) 46 Remove SFP Modules from
Chapter 2 Switch Installation Stratix 5700 Switch Installation ATTENTION: Environment and Enclosure This equipment is intended for use in a Pollution Degree 2 industrial environment, in overvoltage Category II applications (as defined in IEC 60664-1), at altitudes up to 2000 m (6562 ft) without derating. This equipment is not intended for use in residential environments and may not provide adequate protection to radio communication services in such environments.
Switch Installation Chapter 2 European Hazardous Location Approval The following applies when the product bears the Ex Marking. This equipment is intended for use in potentially explosive atmospheres as defined by European Union Directive 94/9/EC and has been found to comply with the Essential Health and Safety Requirements relating to the design and construction of Category 3 equipment intended for use in Zone 2 potentially explosive atmospheres, given in Annex II to this Directive.
Chapter 2 Switch Installation • For 10/100 ports and 10/100/1000 ports, the cable length from a switch to an attached device cannot exceed 100 m (328 ft). • The fiber-optic cable length from a switch to an attached device cannot exceed the distance specified in Appendix C.
Switch Installation Chapter 2 Install or Remove the SD Card (optional) WARNING: When you insert or remove the CompactFlash/SD memory card while power is on, an electrical arc can occur. This can cause an explosion in hazardous location installations. Be sure that power is removed or the area is nonhazardous before proceeding. To install or replace the SD card, follow these steps. 1. On the front of the switch, locate the door that protects the SD card slot. 2.
Chapter 2 Switch Installation • To remove the card, push it in and let it pop out via the spring-loaded mechanism. Grasp the card top and pull it out. Place it in an antistatic bag to protect it from static discharge. Set up IN 1 EIP Net EIP Mo d Al ar m IN 2 OU T 32272-M 4. Close the guard door and fasten the captive screw by using a screwdriver to keep the door in place.
Switch Installation Chapter 2 To test the switch, follow these steps. 1. Apply power to the switch. To apply power to a switch that is directly connected to a DC power source, locate the circuit breaker on the panel board that services the DC circuit, and switch the circuit breaker to the ON position. 2. Verify the start-up sequence. When you power on the switch, it automatically begins a start-up routine. The System status indicator blinks green as the IOS software image loads.
Chapter 2 Switch Installation Mount the Switch on a DIN Rail The switch ships with a spring-loaded latch on the rear panel for mounting on a DIN rail. WARNING: If you connect or disconnect console port cables with power applied to this module or any device on the network, an electrical arc can occur. This could cause an explosion in hazardous location installations. Be sure that power is removed or the area is nonhazardous before proceeding.
Switch Installation Chapter 2 ATTENTION: Under certain conditions, viewing the optical port may expose the eye to hazard. When viewed under some conditions, the optical port may expose the eye beyond the maximum permissible exposure recommendations. ATTENTION: Class 1 laser product. Laser radiation is present when the system is open and interlocks bypassed. Only trained and qualified personnel should be allowed to install, replace, or service this equipment.
Chapter 2 Switch Installation Remove the Switch from the DIN Rail To remove the switch from a DIN rail or a rack, follow these steps. 1. Remove power from the switch, and disconnect all cables and connectors from the front panel of the switch. 2. Insert a tool, such as a flat-head screwdriver, in the slot at the bottom of the spring-loaded latch and use it to release the latch from the DIN rail.
Switch Installation Chapter 2 ATTENTION: For proper grounding, you must always connect the power supply functional-ground screw when connecting the power supply. You must provide an acceptable grounding path for each device in your application. For more information on proper grounding guidelines, refer to publication 1770-4.1, Industrial Automation Wiring and Grounding Guidelines. Use at least 4 mm2 (12 AWG) wire to connect to the external grounding screw. The ground lug is not supplied with the switch.
Chapter 2 Switch Installation 5. Insert the ground screw into the functional ground screw opening on the front panel. Ring Terminal Lug (single lug shown) 32276-M 6. Use a ratcheting torque screwdriver to tighten the ground screws and ring terminal lugs to the switch front panel to 0.4 Nm (3.5 lbin). Do not exceed the recommended torque. 7. Attach the other end of the ground wire to a grounded bare metal surface, such as a ground bus, a grounded DIN rail, or a grounded bare rack.
Switch Installation Chapter 2 1. Locate the power connector. 32280-M 2. Identify the positive and return DC power connections. The positive DC power connection is labeled DC+, and the negative DC power connection is the adjacent connection labeled DC-. 3. Measure a length of 0.82…0.52 mm2 (18…20 AWG) copper wire long enough to connect to the DC power source. 4. Use an 18-gauge wire-stripping tool to strip each of the two wires to 6.3 mm (0.25 in.) ± 0.5 mm (0.02 in.). Do not strip more than 6.8 mm (0.
Chapter 2 Switch Installation 6. Insert the exposed part of the positive wire into the connection labeled DC+ and the exposed part of the return wire into the connection labeled DC-. Be sure that you cannot see any wire lead. Only wire with insulation can extend from the connector. ATTENTION: An exposed wire lead from a DC-input power source can conduct harmful levels of electricity. Be sure that no exposed portion of the DC-input power source wire extends from the connector(s) or terminal blocks.
Switch Installation Chapter 2 8. Connect the other end of the positive wire to the positive terminal on the DC power source, and connect the other end of the return wire to the return terminal on the DC power source. When you are testing the switch, one power connection is sufficient. If you are installing the switch and are using a second power source, repeat this procedure with the second power connector.
Chapter 2 Switch Installation 2. Use a ratcheting torque flathead screwdriver to tighten the captive screws on the sides of the power connectors. 32284-M When you are testing the switch, one power source is sufficient. If you are installing the switch and are using a second power source, repeat this procedure for the second power connector (Pwr B), which installs just below the primary power connector (Pwr A). 3.
Switch Installation Chapter 2 Power supply requirements depend on your application. Application Power Supply per Port Power Consumption PoE only IEEE 802.3af 44…57V DC (48V DC nom) 15.4 W, max PoE and PoE + IEEE 802.3at Type 2 50…57V DC (54V DC nom) 15.
Chapter 2 Switch Installation Attach the PoE Power Connector This procedure applies only to switches with PoE ports. 1. Insert the power connector into the DC input terminal block on the switch front panel. 2. Use a screwdriver to tighten the captive screws on the sides of the power connector. PoE Inpu 48V t DC, Pwr 1.2A ATTENTION: Exposure to some chemicals can degrade the sealing properties of materials used in the relay. Periodically inspect the relay and check for any degradation.
Switch Installation Chapter 2 You can use any combination of rugged SFP modules. Each SFP module must be of the same type as the SFP module on the other end of the cable. The cable must not exceed the stipulated cable length for reliable communications. When you use commercial SFP modules such as CWDM and 1000BX-U/D, reduce the maximum operating temperature by 15 °C (59 °F). The minimum operating temperature is 0 °C (32 °F).
Chapter 2 Switch Installation Remove SFP Modules from SFP Module Slots To remove an SFP module from a module receptacle, follow these steps. 1. Attach an ESD-preventive wrist strap to your wrist and to a grounded bare metal surface. 2. Disconnect the fiber LC connector from the SFP module. 3. Insert a dust plug into the optical ports of the SFP module to keep the optical interfaces clean. 4. Unlock and remove the SFP module.
Switch Installation Chapter 2 Wire the External Alarms The switch has two alarm input and one Form C (single-pole, double-throw) alarm output relay circuits for external alarms. The input alarm relay circuits are designed to sense if the alarm input is open or closed relative to the alarm input reference pin. The output alarm relay circuit has a single Form C relay, with one normally open (NO) and one normally closed (NC) contact.
Chapter 2 Switch Installation The labels for the alarm relay connector are on the switch panel. Table 1 - Alarm Relay Connector Labels Label Connection NO Alarm Output Normally Open (NO) connection COM Alarm Output Common connection NC Alarm Output Normally Closed (NC) connection IN2 Alarm Input 2 REF Alarm Input Reference Ground connection IN1 Alarm Input 1 To wire the switch to an external alarm device, follow these steps. 1.
Switch Installation Chapter 2 5. Use a ratcheting torque flathead screwdriver to torque the alarm relay connector captive screw (above the installed wire leads) to 0.23 N•m (2.0 lb•in). Do not exceed the recommended torque. IN1 - External Device Connection 1 REF - External Device Connection 2 32288-M 6. Repeat the above procedure to insert the input and output wires of one additional external alarm device into the alarm relay connector.
Chapter 2 Switch Installation Attach the Alarm Relay Connector to the Switch To attach the alarm relay connector to the front panel of the switch, follow these steps. 1. Insert the alarm relay connector into the receptacle on the switch front panel. 2. Use a ratcheting torque flathead screwdriver to tighten the captive screws on the sides of the alarm relay connector.
Switch Installation Chapter 2 Connect to 10BASE-T, 100BASE-TX, or 1000BASE-T Ports To connect to 10BASE-T, 100BASE-TX, or 1000BASE-T ports, follow these steps. ATTENTION: To prevent electrostatic-discharge (ESD) damage, follow recommended board and component handling procedures. 1. Choose one of these options to connect a device: • When connecting to workstations, servers, and routers, connect a straight-through cable to an RJ45 connector on the front panel.
Chapter 2 Switch Installation Connect to PoE Ports Switches with PoE ports require a separate power supply. For power supply requirements based on your application, refer to page 44. 1. Insert a straight-through, twisted four-pair, Category 5e or better cable with an RJ45 connector into the PoE port. PoE Port PoE Inp 48V ut Pw DC, r 1.2A 2. Insert the other cable end into an RJ45 connector on the other PoE powered device.
Switch Installation Chapter 2 Connect to SFP Modules To connect a fiber-optic cable to an SFP module, follow these steps. ATTENTION: Do not remove the rubber plugs from the SFP module port or the rubber caps from the fiber-optic cable until you are ready to connect the cable. The plugs and caps protect the SFP module ports and cables from contamination and ambient light. 1. Remove the rubber plugs from the module port and fiber-optic cable, and store them for future use. 2.
Chapter 2 Switch Installation Connect to a Dual-purpose Port A dual-purpose port is a single port with two interfaces, one for an RJ45 cable and another for an approved SFP module. Only one interface can be active at a time. If both interfaces are connected, the SFP module has priority. ATTENTION: Do not remove the rubber plugs from the SFP module port or the rubber caps from the fiber-optic cable until you are ready to connect the cable.
Switch Installation ArmorStratix 5700 Switch Installation Chapter 2 ATTENTION: Environment and Enclosure This equipment is intended for use in overvoltage Category II applications (as defined in IEC 60664-1), at altitudes up to 2000 m (6562 ft) without derating. This equipment is not intended for use in residential environments and may not provide adequate protection to radio communication services in such environments. This equipment is supplied as enclosed equipment.
Chapter 2 Switch Installation When determining where to place the switch, observe these guidelines: • Airflow around the switch is unrestricted. To prevent the switch from overheating, observe the following minimum clearances: – Top and bottom: 50.8 mm (2.0 in.) – Sides: 50.8 mm (2.0 in.) – Front: 50.8 mm (2.0 in.) • For 10/100 ports and 10/100/1000 ports, the cable length from a switch to an attached device cannot exceed 100 m (328 ft).
Switch Installation Chapter 2 Install or Remove the SD Card (optional) The switch supports a Secure Digital (SD) memory card to store firmware and the startup configuration. This storage makes it possible to replace a switch without reconfiguring the replacement switch. The SD memory card cover protects the card against shock and vibration by holding the card in place. The cover is hinged and secured with captive screws. The slot for the SD memory card is located on the side of the switch.
Chapter 2 Switch Installation Verify Switch Operation Before installing the switch in its final location, power on the switch, and verify that the switch powers up. The time required for the switch to start up is directly related to your switch configuration. Start time is negatively affected by such things as the following: • Spanning Tree Learning mode • Number of files or images in onboard flash memory To test the switch, follow these steps. 1. Power on the switch.
Switch Installation Chapter 2 Mount the Switch ATTENTION: To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety: • This unit should be mounted at the bottom of the rack if it is the only unit in the rack. • When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack.
Chapter 2 Switch Installation Ground the Switch ATTENTION: This equipment must be grounded. Never defeat the ground conductor or operate the equipment in the absence of a suitably installed ground conductor. Contact the appropriate electrical inspection authority or an electrician if you are uncertain that suitable grounding is available. This equipment is intended to be grounded to comply with emission and immunity requirements.
Switch Installation Chapter 2 5. Insert the ground screw into the functional ground screw opening on the front panel. 32498 6. Use a ratcheting torque screwdriver to tighten the ground screws and ring terminal lugs to the switch front panel to 0.4 Nm (3.5 lbin). Do not exceed the recommended torque. 7. Attach the other end of the ground wire to a grounded bare metal surface, such as a ground bus, a grounded DIN rail, or a grounded bare rack.
Chapter 2 Switch Installation Connect the Switch to a DC Power Source You must supply a power solution for the device. An IP67-rated cordset or patchcord with a female-end, 4-pin mini connector is required to provide power to the switch. Rockwell Automation offers a Bulletin 1607 IP67-rated power supply to provide 24V DC power to the switch. Ethernet communication and control power cables are available separately.
Switch Installation Chapter 2 Wire External Alarms Some switch models have the following for external alarms: • One input alarm relay circuit to sense whether the alarm input is open or closed relative to the alarm input reference pin. • One output alarm relay circuit with a single Form C (single-pole, double-throw) relay with one normally open (NO) and one normally closed (NC) contact. You can configure the output alarm as either normally energized or normally de-energized by using the CLI.
Chapter 2 Switch Installation ATTENTION: The input voltage source of the alarm output relay circuit must be an isolated source and limited to less than or equal to 24 VDC, 1.0 A or 48 VDC, 0.5 A. Connect to 10/100 and 10/100/1000 Ports The switch 10/100 and 10/100/1000 ports automatically configure themselves to operate at the speed of attached devices. If the attached ports do not support autonegotiation, you can explicitly set the speed and duplex parameters.
Switch Installation Set Up the Switch Initially with Express Setup Chapter 2 When you first set up the switch, use Express Setup to enter the initial IP address. Doing this enables the switch to be used as a managed switch. You can then access the switch through the IP address for additional configuration. IMPORTANT Do not run Express Setup with an SD card inserted in the switch.
Chapter 2 Switch Installation To run Express Setup, follow these steps. 1. Make sure that at least one switch Ethernet port is available for Express Setup. IMPORTANT For 1783-BMS4S2SGL or 1783-BMS4S2SGA switches, you must use port Gi1/1 for Express Setup. Do not use the console port. During Express Setup, the switch acts as a DHCP server. If your personal computer has a static IP address, change your personal computer settings before you begin to temporarily use DHCP. 2. Apply power to the switch.
Switch Installation Chapter 2 4. Press and release the Express Setup button. Wait for a few seconds until the status indicator on one of the unconnected switch ports flashes green. This button is recessed 16 mm (0.63 in.) behind the panel. Use a small tool, such as a paper clip, to reach the button.
Chapter 2 Switch Installation 5. Connect a Category 5 Ethernet cable (not provided) from the flashing switch port to the Ethernet port on a computer. If you wait too long to connect the cable, the Setup status indicator turns off. or For 1783-BMS4S2SGL or 1783-BMS4S2SGA switches, do one of the following: • Insert a copper SFP module into port Gi1/1, and then connect a Category 5 Ethernet cable from the SFP module to the Ethernet port on a computer.
Switch Installation Chapter 2 9. Complete the fields. To view fields for Common Industrial Protocol (CIP), you must click Advanced Settings.
Chapter 2 Switch Installation Field Description Network Settings Host Name The name of the device. Management Interface (VLAN ID) The name and ID of the management VLAN through which the switch is managed. Choose an existing VLAN to be the management VLAN. The default ID is 1. The default name for the management VLAN is default. The number can be from 1…1001. Be sure that the switch and your network management station are in the same VLAN. Otherwise, you lose management connectivity to the switch.
Switch Installation Chapter 2 10. Click Submit. The switch initializes its configuration for typical industrial EtherNet/IP applications. The switch then redirects you to the logon page for the Device Manager Web interface. You can continue to launch the Device Manager Web interface for further configuration or exit the application. 11. Turn off DC power at the source, disconnect all cables to the switch, and install the switch in your network.
Chapter 2 Switch Installation Notes: 74 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Chapter 3 Switch Software Features Topic Page Port Numbering 76 Global Macro 82 Smartports 83 Power over Ethernet (PoE) 85 VLANs 90 IGMP Snooping with Querier 93 Spanning Tree Protocol 94 Port Thresholds 95 Port Security 97 EtherChannels 98 DHCP Persistence 100 CIP Sync Time Synchronization (Precision Time Protocol) 100 Network Address Translation (NAT) 101 Resilient Ethernet Protocol 107 SNMP 111 Port Mirroring 113 Routing 113 SD Card Synchronization 114 Alarms 114
Chapter 3 Switch Software Features Port Numbering The port ID consists of port type (Gigabit Ethernet for Gigabit ports and Fast Ethernet for 10/100 Mbps ports), unit number (always 1), and port number (1-2 for Gigabit ports, 1-18 for all others, depending on catalog numbers). Gigabit Ethernet is abbreviated as Gi and Fast Ethernet as Fa. The following table shows port numbering for the switch. Table 3 - Port Numbering Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Switch Software Features Chapter 3 Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Chapter 3 Switch Software Features Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Switch Software Features Chapter 3 Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Chapter 3 Switch Software Features Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Switch Software Features Chapter 3 Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Chapter 3 Switch Software Features Table 3 - Port Numbering (continued) Cat. No. Description Port Numbering on Switch Labels Port Numbering in config.
Switch Software Features Smartports Chapter 3 Smartports are recommended configurations for the switch ports. These configurations, referred to as port roles, optimize the switch connections and provide security, transmission quality, and reliability for traffic from the switch ports. The port roles also help prevent port misconfigurations. TIP Use Smartport roles immediately after the initial setup of the switch to correctly configure the switch ports before they connect to devices.
Chapter 3 Switch Software Features Table 4 - Smartport Roles (continued) Port Role Description Phone for Automation Apply this role to ports to be connected to IP phones. A desktop device, such as a computer, can be connected to the IP phone. Both the IP phone and the connected computer have network access through the port: • Port is set to Trunk mode. • Port security supports three MAC IDs to this port.
Switch Software Features Power over Ethernet (PoE) Chapter 3 Switches with PoE ports are software-configurable and provide these features: • Support for IEEE 802.3af (PoE)-compliant devices. • Support for IEEE 802.3at Type 2 (PoE+), which increases the available power that can be drawn by powered devices from 15.4…30 W per port. • Automatic detection and power budgeting. The switch maintains a power budget, monitors and tracks requests for power, and grants power only when it is available.
Chapter 3 Switch Software Features Powered Device Detection and Initial Power Allocation A switch detects a powered device when a port with PoE capability is active, PoE is enabled (the default), and the connected device is not being powered by another power source. After device detection, the switch determines the device power requirements based on its type: • The switch classifies the detected 802.3 af/at compliant IEEE device within a power consumption class.
Switch Software Features Chapter 3 If the switch detects a fault caused by an undervoltage, overvoltage, overtemperature, oscillator-fault, or short-circuit condition, it turns off power to the port, generates a syslog message, and updates the power budget and status indicators. Power Management Modes PoE ports support these modes: • Auto (default)—The port automatically detects if the connected device requires power. This is the default mode.
Chapter 3 Switch Software Features • Static—The switch pre-allocates power to the port even when no powered device is connected and guarantees that power is available for the port. The switch allocates the port-configured maximum wattage, and the amount is never adjusted through the IEEE class or by CDP messages from a powered Cisco end device.
Switch Software Features Chapter 3 Power Consumption Values You can configure the initial power allocation and the maximum power allocation on a port. However, these values are only the configured values that determine when the switch turns on or turns off power on the PoE port. The maximum power allocation is not the same as the actual power consumption of the powered device.
Chapter 3 VLANs Switch Software Features A virtual local-area network (VLAN) is a logical segment of network users and resources grouped by function, team, or application. This segmentation is without regard to the physical location of the users and resources. For example, VLANs can be based on the departments in your company or by sets of users who communicate mostly with each other. The switch ships with a default VLAN to which each switch port initially belongs.
Switch Software Features Chapter 3 Isolate Traffic and Users By using VLANs, you can isolate different types of traffic, such as voice and data, to preserve the quality of the transmission and to minimize excess traffic among the logical segments. You can also use VLANs to isolate different types of users.
Chapter 3 Switch Software Features Isolate Different Traffic Types Isolating data traffic from delay-sensitive traffic, such as voice traffic, increases the quality of the voice transmission. In the figure above, switch ports connected to the IP phones belong to VLAN 3, a VLAN that is configured to provide Voice over IP (VoIP) services on these connections, meaning priority is given to voice traffic over regular IP data traffic.
Switch Software Features IGMP Snooping with Querier Chapter 3 Layer 2 switches can use IGMP snooping to constrain the flooding of multicast traffic by dynamically configuring Layer 2 interfaces so that multicast traffic is forwarded to only those interfaces associated with IP multicast devices. As the name implies, IGMP snooping requires the LAN switch to snoop on the IGMP transmissions between the host and the router and to keep track of multicast groups and member ports.
Chapter 3 Switch Software Features Spanning Tree Protocol Spanning Tree Protocol (STP) is a Layer 2 link management protocol that provides path redundancy while preventing loops in the network. For a Layer 2 Ethernet network to function properly, only one active path can exist between any two stations. Multiple active paths among end stations cause loops in the network. If a loop exists in the network, end stations can receive duplicate messages.
Switch Software Features Port Thresholds Chapter 3 Port thresholds prevent traffic on a LAN from being disrupted by a broadcast, multicast, or unicast storm on one of the physical interfaces. Port Thresholds do not apply to switches with lite firmware. A LAN storm occurs when packets flood the LAN, creating excessive traffic and degrading network performance. Errors in the protocol-stack implementation, mistakes in network configurations, or users issuing denial-of-service attacks can cause a storm.
Chapter 3 Switch Software Features Figure 2 - Port Thresholds Example Forwarded Traffic Blocked Traffic Total Number of Broadcast Packets or Bytes Threshhold 0 T1 T2 T3 T4 T5 Time The combination of the storm-control suppression level and the 1-second time interval controls the way the port thresholds algorithm works. A higher threshold enables more packets to pass through. A threshold value of 100% means that no limit is placed on the traffic. A value of 0.
Switch Software Features Port Security Chapter 3 Stratix 5700 switches implement MAC address-based port security. A MAC address is a unique address assigned to each Ethernet-capable device. This means that the switch can enforce communications either dynamically or statically per MAC address. With dynamic port security, a switch port communicates with a certain number of devices (MAC addresses). The port tracks only the number of devices rather than the MAC addresses of those devices.
Chapter 3 Switch Software Features Static Secure MAC Address (MAC ID) The other method of limiting MAC IDs is to statically configure one or more MAC IDs for a port by defining them via port security on the Device Manager Web interface. These addresses become part of the saved configuration of the switch. This method provides strong security. However, if you replace any devices connected to the port, you must reconfigure the MAC IDs because the new devices have different MAC IDs than the previous devices.
Switch Software Features Chapter 3 Figure 3 - EtherChannel Example Servers Switch A Switch B WAN/Internet Router with Firewall Switch C Access Point Network Management Switch D PC MAC Guest Printer Printer You can configure an EtherChannel in one of these modes: • Port Aggregation Protocol (PAgP) • Link Aggregation Control Protocol (LACP) • On Configure both ends of the EtherChannel in the same mode: • When you configure one end of an EtherChannel in either PAgP or LACP mode, the system negotiate
Chapter 3 Switch Software Features DHCP Persistence Every device in an IP-based network must have a unique IP address. The Dynamic Host Configuration Protocol (DHCP) automatically assigns IP address information from a pool of available addresses to newly connected devices (DHCP clients) in the network. If a device leaves and then re-joins the network, the device receives the next available IP address, which can or cannot be the same address that it had before.
Switch Software Features Network Address Translation (NAT) Chapter 3 NAT is a service that translates one IP address to another IP address via a NAT-configured switch. The switch translates the source and destination addresses within data packets as traffic passes between subnets. This service is useful if you need to reuse IP addresses throughout a network.
Chapter 3 Switch Software Features Figure 4 - Layer 3 Example HMI 10.200.1.2 VLAN 200 VLAN 200 Line Controller (LC) 10.200.1.3 Layer 3 Device (Stratix 8300) VLAN 10: 10.10.1.1 192.168.1.1 (NAT GW) VLAN 200: 10.200.1.1 C1 to LC C2 to LC VLAN 10 Controller (C1) 192.168.1.10 10.10.1.10 102 VLAN 10 Machine Mach Ma chin inee 1 (M ((M1) 1)) Machine 2 (M2) Stratix 5700 NAT (NAT1) 192.168.1.2 Stratix 5700 NAT (NAT2) 192.168.1.1 VVLAN 10 VLAN 10 I/O 192.168.1.11 Drive 192.168.1.
Switch Software Features Chapter 3 Figure 5 - Layer 2 Example HMI 10.10.1.101 VLAN 10 VLAN 10 C1 to LC Line Controller (LC) 10.10.1.100 192.168.100 Layer 2 Device (Stratix 8000) VLAN 10: 10.10.1.1 C2 to LC VLAN 10 Controller (C1) 192.168.1.10 10.10.1.10 VLAN 10 Machine Mach Ma chin inee 1 (M ((M1) 1)) Machine 2 (M2) Stratix 5700 NAT (NAT1) 192.168.1.2 Stratix 5700 NAT (NAT2) 192.168.1.2 VVLAN 10 VLAN 10 I/O 192.168.1.11 Drive 192.168.1.12 Controller (C2) 192.168.1.10 10.10.1.
Chapter 3 Switch Software Features An address translation can be one of three types. The type of translation determines the number of translation entries. A switch can have a maximum of 128 translation entries. Table 7 - Number of Translation Entries by Translation Type Translation Type Translation Entries Description Single 1 Translates a single IP address. Consists of the following: • One private IP address • One public IP address Range Multiple Translates a range of IP addresses.
Switch Software Features Chapter 3 VLAN Assignments When configuring NAT, you can assign one or more VLANs to a NAT instance. When you assign a VLAN to a NAT instance, the traffic associated with that VLAN is subject to the configuration parameters of the NAT instance. Configuration parameters include whether traffic is translated, fixed up, blocked, or passed through. IMPORTANT Set up all Smartport roles and VLANs before creating NAT instances.
Chapter 3 Switch Software Features Configuration Considerations Consider these guidelines and limitations when configuring NAT: • A switch can translate only IPv4 addresses. • A switch can have a maximum of 128 NAT instances, 128 NAT-associated VLANs, and 128 translation entries. A subnet translation counts as only one translation entry, but includes translations for many devices. • You can configure NAT on one or both uplink ports of the switch.
Switch Software Features Resilient Ethernet Protocol Chapter 3 The Resilient Ethernet Protocol (REP) provides an alternative to Spanning Tree Protocol (STP) to control network rings and loops, handle link failures, and improve convergence time. REP controls a group of ports connected in a segment, makes sure that the segment does not create any bridging loops, and responds to link failures within the segment. REP provides a basis for constructing more complex networks and supports VLAN load balancing.
Chapter 3 Switch Software Features REP and STP can coexist on the same switch, but not on the same port. REP does not interact with STP. For example, if a port is configured as an REP port, STP is disabled on that port. STP bridge protocol data units (BPDUs) are not accepted on or sent from REP ports. However, adjacent REP and STP rings or domains can share a common link. This common link can be used for passing REP and STP date plane traffic, or for the STP control plane traffic.
Switch Software Features Chapter 3 REP Ring Segment The segment shown in Figure 7, with both edge ports on the same switch, is a ring segment. In this configuration, there is connectivity between the edge ports through the segment. With this configuration, you can create a redundant connection between any two switches in the segment. In the following figure, E1 or E2 can be configured as the primary edge port.
Chapter 3 Switch Software Features In the following example, E1 or E2 can be configured as the primary no-neighbor port. Figure 8 - Ring Topology Example E1 REP Ports Configured at Transit Ports E2 273792 REP Not Supported REP has these limitations: • You must configure each segment port; an incorrect configuration can cause forwarding loops in the networks. • REP can manage only a single failed port within the segment; multiple port failures within the REP segment cause loss of network connectivity.
Switch Software Features SNMP Chapter 3 The switch supports Simple Network Management Protocol (SNMP) versions 1, 2C, and 3. SNMP enables the switch to be remotely managed through other network management software. This feature is disabled by default. SNMP is based on three concepts: • SNMP managers (client software) • SNMP agents (network devices) • Management Information Base (MIB) Refer to Supported MIBs on page 112 for the MIBs supported on the switch. The SNMP manager runs SNMP management software.
Chapter 3 Switch Software Features Supported MIBs The Stratix 5700 switch supports the following MIBs.
Switch Software Features Port Mirroring Chapter 3 Port mirroring is for advanced users with experience in troubleshooting traffic and protocol issues on networks. The port mirroring feature copies (or mirrors) traffic on one port to a monitoring port where the packet can be captured by a network protocol analyzer tool. Use port mirroring as a diagnostic tool or debugging feature. Port mirroring does not affect the switching of network traffic on the monitored port.
Chapter 3 Switch Software Features Configuration Management The switch can store its configuration in internal memory or on an external SD card. By default, the SD card always takes precedence over internal memory. If you have a valid IOS image and configuration files on the SD card and start the switch with the SD card inserted, the switch loads the files from the SD card. In general, the start method for the switch becomes the source for any changes you make to the configuration.
Switch Software Features Chapter 3 • SNMPv3 • HTTPS Cable Diagnostics The Cable Diagnostics feature lets you run a test on each switch port to determine the integrity of the cable connected to the RJ45 (copper) ports. This feature is not available for fiber ports. The test determines the distance to the break from the switch for each cable with a plus or minus error value individually listed.
Chapter 3 Switch Software Features Notes: 116 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Chapter 4 Manage the Switch via the Device Manager Web Interface Topic Page Access the Device Manager Web Interface 118 Dashboard Overview 119 Configure Smartports 125 Configure Port Settings 132 Configure Port Thresholds 134 Configure EtherChannels 135 Configure DHCP 137 Configure VLANs 141 Configure Power over Ethernet (PoE) Ports 142 Configure PTP Time Synchronization 145 Enable and Configure Routing 148 Configure STP 149 Configure REP 151 Configure NAT 153 Configure Port
Chapter 4 Manage the Switch via the Device Manager Web Interface Topic Page Use the SD Card to Synchronize the Configuration or IOS Files 184 Upload and Download Configuration Files 186 Upgrade License Files 186 After you complete Express Setup, you can manage the switch by using the Device Manager Web interface supplied with the switch. For simplicity, most of the illustrations in this chapter show a 6-port switch.
Manage the Switch via the Device Manager Web Interface Dashboard Overview Chapter 4 You can use the dashboard to monitor switch status and performance. The Dashboard window is similar to the Monitor > Trends window. The Dashboard window displays the instantaneous status while the Trends window displays the historical status. By using them together, you can gather the detailed conditions of the switch and its ports. For information about the Trends window, see page 170.
Chapter 4 Manage the Switch via the Device Manager Web Interface Table 9 - Front Panel Status Indicators (continued) Indicator Status Description Alarm In 1 Alarm In 2 Off Alarm input not configured. Solid green Alarm input configured; no alarm detected Blinking red Major alarm detected. Solid red Minor alarm detected. Off The switch is configured as a managed switch. Solid green The switch is in initial setup.
Manage the Switch via the Device Manager Web Interface Chapter 4 You can change the port status indicator behavior by choosing a Port mode from the View list on the front panel view. Move the pointer over a port to display specific information about the port and its status. TIP If you move the pointer over a port that is blinking green and amber, the status is one of the following: • Link is faulty • Link has collisions In either state, the port is receiving and sending traffic.
Chapter 4 Manage the Switch via the Device Manager Web Interface Switch Information The Switch Information area on the Dashboard displays information about the switch, as described in the following table. 122 Field Description Host Name A descriptive name for this switch. The default name is Switch. You can set this parameter on the Admin > Express Setup window. IP Address The IP address of this switch. You can configure this setting on the Admin > Express Setup window.
Manage the Switch via the Device Manager Web Interface Chapter 4 Switch Health You can use the health gauges to monitor the switch. CPU Utilization The CPU Utilization gauge shows the percentage of CPU processing power that is in use on the switch. Data is collected at each 60-second system refresh. The gauge changes as the switch experiences the network activity from devices sending data through the network.
Chapter 4 Manage the Switch via the Device Manager Web Interface Port Utilization You can choose which types of network traffic to display and in what format: • Types of traffic—By default, all traffic is displayed for all interfaces. Click the links above the display area to display all traffic, errors, received traffic, or transmitted traffic. • Formats—Click the buttons below the display area to view the data in Chart Mode or Grid Mode.
Manage the Switch via the Device Manager Web Interface Configure Smartports Chapter 4 To assign Smartport roles to switch ports, from the Configure menu, choose Smartports. Follow these guidelines when using Smartport roles: • Before using Smartport roles, decide which switch port is connected to which device type. • Before attaching a device to the port or reconnecting devices that have been moved, verify which Smartport role is applied to a port.
Chapter 4 Manage the Switch via the Device Manager Web Interface Customize Port Role Attributes Each switch port is a member of a VLAN. Devices attached to switch ports that belong to the same VLAN share the same data broadcasts and system resources. Depending on your network requirements, it can be sufficient to assign all ports to the default VLAN, which is named default. One VLAN can be sufficient for a small network.
Manage the Switch via the Device Manager Web Interface Chapter 4 4. Modify the VLAN assignments as needed: • For ports applied with the Automation Device with QoS, Switch For Automation, Router For Automation, or Wireless For Automation port role, choose a VLAN from the Native VLAN list. • For ports applied with the Automation Device, Desktop For Automation, Phone For Automation, or None port role, choose a VLAN from the Access VLAN list.
Chapter 4 Manage the Switch via the Device Manager Web Interface 5. Enter a macro definition. The definition can contain up to 3000 characters. Enter the macro commands with one command per line. Use the # character at the beginning of a line to enter comment text within the macro. Available parameters for the macro are $native_vlan, $access_vlan, and $voice_vlan. 6. Enter an antimacro definition.
Manage the Switch via the Device Manager Web Interface Chapter 4 4. Click Edit. 5. Change the definitions as needed. 6. Click Submit. Delete a Custom Smartports Macro You cannot delete a custom Smartports macro that is currently in use. 1. From the Configure menu, choose Smartports. 2. Click the Custom Smartports tab. 3. Check the checkbox next to the macro to delete. 4. Click Delete.
Chapter 4 Manage the Switch via the Device Manager Web Interface Import a Custom Smartports Macro You must use Firefox 3.6 or higher to import a custom Smartports macro. 1. From the Configure menu, choose Smartports. 2. Click the Custom Smartports tab. 3. Click Import. 4. Click Browse. 5. Select the macro file on your computer or network drive. The file must be an appropriately formatted .xml file. 6. Click Import Macros. 7. Click OK.
Manage the Switch via the Device Manager Web Interface Chapter 4 Export a Custom Smartports Macro You must use Firefox 3.6 or higher to export a custom Smartports macro. 1. From the Configure menu, choose Smartports. 2. Click the Custom Smartports tab. 3. Check the checkbox next to the macro to export. 4. Click Export. 5. Save the resulting file.
Chapter 4 Manage the Switch via the Device Manager Web Interface Configure Port Settings The basic port settings determine how data is received and sent between the switch and the attached device. You can change these settings to fit your network needs and to troubleshoot network problems. The settings on a switch port must be compatible with the port settings of the connected device. To change basic port settings, from the Configure menu, choose Port Settings.
Manage the Switch via the Device Manager Web Interface Chapter 4 Table 10 - Port Settings Field Description Port Name The number of the switch port, including port type, such as Fa for Fast Ethernet and Gi for Gigabit Ethernet, and the specific port number: • Gi/1 is the gigabit port 1 of the switch. • Fa1/1 is Fast Ethernet port 1 on the switch. Description The description of the switch port.
Chapter 4 Manage the Switch via the Device Manager Web Interface Table 10 - Port Settings (continued) Field Description Operational Mode The operational state of the port. Displays the administrative mode or Down (if disabled). Access VLAN The VLAN that an interface belongs to and carries traffic for, when the link is configured as or is acting as a nontrunking interface.
Manage the Switch via the Device Manager Web Interface Configure EtherChannels Chapter 4 An EtherChannel, or port group, is a group of two or more switch ports bundled into a single logical link to create a higher bandwidth link between two switches. For example, four 10/100 switch ports can be assigned to an EtherChannel to provide full-duplex bandwidth of up to 800 Mb/s. If one of the ports in the EtherChannel becomes unavailable, traffic is carried over the remaining ports within the EtherChannel.
Chapter 4 Manage the Switch via the Device Manager Web Interface Table 12 - EtherChannel Fields Field Description Channel Group Number A number from 1 to 6 that identifies this EtherChannel. You can configure as many as six EtherChannels. Channel Mode Determines how ports become active. With all options except On, negotiations occur to determine which ports become active.
Manage the Switch via the Device Manager Web Interface Configure DHCP Chapter 4 To use DHCP persistence, you must first enable DHCP and set up the IP address pool. Then you must assign a specific IP addresses to each port. Set up the DHCP Server To enable the DHCP Server mode on the switch, do the following. 1. From the Configure menu, choose DHCP. 2. Check the Enable DHCP checkbox. 3. To enable DHCP snooping, check the DHCP Snooping checkbox.
Chapter 4 Manage the Switch via the Device Manager Web Interface Configure a DHCP IP Address Pool Once DHCP is enabled, you can create the DHCP address pool. To configure a DHCP IP address pool, follow these steps: 1. From the Configure menu, choose DHCP. 2. Click Add. 3. Complete the fields as described below and click OK. Field Description DHCP Pool Name The name of the DHCP IP address pool configured on the switch. The name can have up to 31 alphanumeric characters.
Manage the Switch via the Device Manager Web Interface Chapter 4 Field Description Ending IP The ending IP address that defines the range of addresses in the DHCP IP address pool. The format is a 32-bit numeric address written as four numbers separated by periods. Each number can be from 0…255. Make sure that none of the IP address you assign are being used by other devices in your network. This field is required. Default Router The default router IP address for the DHCP client that uses this server.
Chapter 4 Manage the Switch via the Device Manager Web Interface If you are using DHCP persistence, we recommend that you initially assign static IP addresses to end devices. If an end device fails and is replaced, the DHCP persistence feature assigns an IP address from the DHCP persistence table. The device functions properly with this IP address, but we recommend that you reassign a static IP address to the replaced devices. The following figure and table illustrate DHCP persistence behavior.
Manage the Switch via the Device Manager Web Interface Chapter 4 To assign, modify, or delete a switch port IP address, click the DHCP Persistence tab. Table 14 - DHCP Persistence Fields Field Description Interface The number of the switch port, including port type (such as Fa for Fast Ethernet and Gi for Gigabit Ethernet), and the specific port number. For example, Fa1/1 is Fast Ethernet port 1 on the switch. Pool Name The name of the DHCP IP address pool configured on the switch.
Chapter 4 Manage the Switch via the Device Manager Web Interface Assign Ports to VLANs To assign ports to VLANs, use the Edit Physical Ports window, as described on page 132. Configure Power over Ethernet (PoE) Ports PoE and PoE+ features are supported on switches with PoE ports when a correct power supply is connected to the switch. For power supply requirements, see page 44. You can do the following from the PoE window: • Limit the total power supported.
Manage the Switch via the Device Manager Web Interface Chapter 4 high-power devices on a port, set the mode to Auto and specify a maximum power limit. IMPORTANT When you make PoE configuration changes to a port, the port drops power. Whether the port powers up again depends on the new configuration, the state of the other PoE ports, and the state of the power budget.
Chapter 4 Manage the Switch via the Device Manager Web Interface Table 15 - Power Management Fields Field Description Mode Displays the Power Management mode of the port: • Auto—Enables the detection of powered devices and automatically allocates power to the PoE port if a device is connected. This setting is selected by default. To limit the power used by this port, adjust the Max Power setting.
Manage the Switch via the Device Manager Web Interface Configure PTP Time Synchronization Chapter 4 The IEEE 1588 standard defines a protocol, called Precision Time Protocol (PTP), which enables precise synchronization of clocks in measurement and control systems. The clocks communicate with each other over the EtherNet/IP communication network. The PTP protocol enables heterogeneous systems that include clocks of various inherent precision, resolution and stability to synchronize.
Chapter 4 Manage the Switch via the Device Manager Web Interface To configure PTP, from the Configure menu, choose PTP. Once you choose a mode, you can edit the settings for each port. The parameters depend on the selected mode. You can configure per-port PTP when the switch is in Boundary mode or End-to-end Transparent mode.
Manage the Switch via the Device Manager Web Interface Chapter 4 Table 16 - PTP Fields (continued) Field Description Delay Request Interval The time interval recommended to connected devices to send delay request messages when the switch port is in the master state: • -1 means half second • 0 means 1 second • 1 means 2 seconds • 2 means 4 seconds • 3 means 8 seconds • 4 means 16 seconds • 5 means 32 seconds • 6 means 64 seconds The default is 5 (32 seconds).
Chapter 4 Manage the Switch via the Device Manager Web Interface Enable and Configure Routing Before you can enable routing, you must reallocate switch memory for routing, as described on page 181. To enable routing, from the Configure menu, choose Routing. From the Routing window, you can enable connected routing only or both static and connected routing. When static routing is enabled, connected routing is enabled by default.
Manage the Switch via the Device Manager Web Interface Configure STP Chapter 4 Spanning Tree Protocol (STP) modes include the following: • Multiple Spanning Tree (MST) prevents network loops by enabling only one active path for traffic. MST also provides a redundant path if the active path becomes unavailable. This is the default STP mode. • Per VLAN Spanning Tree Plus (PVST+) runs on each VLAN on the switch up to the maximum supported, ensuring loop-free path through the network.
Chapter 4 Manage the Switch via the Device Manager Web Interface PortFast Settings To enable PortFast and related features, click the PortFast tab. On the PortFast tab, you can change the way that STP is implemented on individual ports. PortFast features are typically enabled only on access ports, which connect to devices such as personal computers, access points, and servers that are not expected to send bridge protocol data units (BPDUs).
Manage the Switch via the Device Manager Web Interface Chapter 4 Per Interface PortFast Table Spanning tree requires an interface to progress through the listening and learning states, to exchange information and establish a loop-free path before it can forward frames. On ports that connect to devices such as workstations and servers, you can allow an immediate connection. PortFast immediately transitions the port into STP forwarding mode upon linkup.
Chapter 4 Manage the Switch via the Device Manager Web Interface Table 17 - REP Fields Field Description REP Admin VLAN The administrative VLAN. The range is 2…4094. The default is VLAN 1. REP ports are assigned to the same REP Admin VLAN. If the REP Admin VLAN changes, all REP ports are automatically assigned to the new REP Admin VLAN. Port Name The number of the switch port, including port type (such as Fa for Fast Ethernet and Gi for Gigabit Ethernet). Mode The administrative mode.
Manage the Switch via the Device Manager Web Interface Configure NAT Chapter 4 To configure NAT, follow one of these procedures based on your application: • Create NAT Instances for Traffic Routed through a Layer 3 Switch or Router For an example of this application, see Figure 4 on page 102. • Create NAT Instances for Traffic Routed through a Layer 2 Switch For an example of this application, see Figure 5 on page 103. IMPORTANT Set up all Smartport roles and VLANs before creating NAT instances.
Chapter 4 Manage the Switch via the Device Manager Web Interface 2. Click Add to display the General tab of the Add/Edit NAT Instance window. 3. In the Name field, type a unique name to identify the instance. The instance name cannot include spaces or exceed 32 characters. 4. From the list of VLANs on the right, check the checkbox next to each VLAN to assign to the instance. For more information about VLAN assignments, see page 105.
Manage the Switch via the Device Manager Web Interface Chapter 4 5. In the Private to Public area, click Add Row, complete the fields, and click Save. Field Description Private IP Address Type a private IP address: • To translate a single address, type the existing address for the device on the private subnet. • To translate a range of addresses, type the first address in the range of sequential addresses.
Chapter 4 Manage the Switch via the Device Manager Web Interface Field Description Type Choose one of these values: • Single—Translate a single address. • Range—Translate a range of addresses. • Subnet—Translate all of the addresses in the private subnet or a portion of the private subnet. Range Type the number of addresses to translate. This field is available only if you choose Range in the Type field.
Manage the Switch via the Device Manager Web Interface Chapter 4 Create NAT Instances for Traffic Routed through a Layer 2 Switch To create a NAT instance for traffic routed through a Layer 2 switch, follow these steps. 1. From the Configure menu, choose NAT to display the NAT window. 2. Click Add to display the General tab of the Add/Edit NAT Instance window. 3. In the Name field, type a unique name to identify the instance. The instance name cannot include spaces or exceed 32 characters. 4.
Chapter 4 Manage the Switch via the Device Manager Web Interface Field Description Private IP Address Type a private IP address: • To translate a single address, type the existing address for the device on the private subnet. • To translate a range of addresses, type the first address in the range of sequential addresses. • To translate addresses in a subnet, type the existing starting address for a device on the private subnet.
Manage the Switch via the Device Manager Web Interface Field Description Type Choose one of these values: • Single—Translate a single address. • Range—Translate a range of addresses. • Subnet—Translate all of the addresses in the private subnet or a portion of the private subnet. Range Type the number of addresses to translate. This field is available only if you choose Range in the Type field. Valid values: 1…128 Default value = 1 IMPORTANT: Each address in the range counts as one translation entry.
Chapter 4 Manage the Switch via the Device Manager Web Interface 7. Click Add Row, complete the fields, and click Save. Field Description Public IP Address Type a public IP address: • To translate a single address, type the existing address for the device on the public subnet. • To translate a range of addresses, type the first address in the range of sequential addresses. • To translate addresses in a subnet, type the existing starting address for the range of devices on the public subnet.
Manage the Switch via the Device Manager Web Interface Field Description Type Choose one of these values: • Single—Translate a single address. • Range—Translate a range of addresses. • Subnet—Translate all of the addresses in the public subnet or a portion of the public subnet. Range Type the number of addresses to translate. This field is available only if you choose Range in the Type field. Valid values: 1…128 Default value = 1 IMPORTANT: Each address in the range counts as one translation entry.
Chapter 4 Manage the Switch via the Device Manager Web Interface 2. Choose one of these options for incoming and outgoing packets that are not handled by NAT: • Pass-through—Permit the packets to pass across the NAT boundary. • Blocked—Drop the packets. 3. In the Fix up Packets area, check or clear the checkboxes to enable or disable fixups for ARP and ICMP. By default, fixups are enabled for both ARP and ICMP. 4. Click Submit.
Manage the Switch via the Device Manager Web Interface Chapter 4 Port security supports multiple security levels: • The ability to define the number of devices that are connected to a given port. These are assigned on a first-come, first-served basis and time out after a certain period of inactivity. • The ability to easily store the existing MAC Address configuration by selecting Add Learned MAC Addresses on the Static MAC Address Table.
Chapter 4 Manage the Switch via the Device Manager Web Interface Configure IGMP Snooping Internet Group Management Protocol (IGMP) snooping reduces duplicate and excess traffic on the network by forwarding IP multicast traffic to specific switch ports rather than by flooding all ports. With IGMP snooping, ports that are members of only specific IP multicast groups receive multicast messages. The result is a more efficient use of bandwidth.
Manage the Switch via the Device Manager Web Interface Configure SNMP Chapter 4 Enable SNMP if you plan to have the switch managed through another network management application. By default, SNMP is disabled. Other general SNMP settings include the name of the switch or the network administrator and the switch location. The system name and the system contact information appear in the Switch Information area on the Dashboard. To configure SNMP, from the Configure menu, choose SNMP.
Chapter 4 Manage the Switch via the Device Manager Web Interface Use SNMP Management Applications You can use SNMP management applications such as IntraVue or HP OpenView to configure and manage the switch. Refer to SNMP on page 111 for more information. Configure Alarm Settings The switch software monitors conditions on a per port or a global basis. If the conditions do not match the set parameters, an alarm or a system message is triggered.
Manage the Switch via the Device Manager Web Interface Chapter 4 Global Alarms To configure global alarms, also known as facility alarms, from the Configure menu, choose Alarm Settings and click the Global tab. Field Description FCS Hysteresis (1-10) The frame check sequence (FCS) error hysteresis threshold is used to determine when an alarm condition is cleared. This value is expressed as a percentage of fluctuation from the FCS bit error rate. The default setting is 8 percent.
Chapter 4 Manage the Switch via the Device Manager Web Interface Port Alarms To create alarm profiles for individual ports, from the Configure menu, choose Alarm Settings and click the Port tab. For each port, choose an Alarm Profile and set the FCS threshold. The frame check sequence (FCS) error hysteresis threshold is expressed as a percentage of fluctuation from the FCS bit error rate. The default setting is 8 percent.
Manage the Switch via the Device Manager Web Interface Chapter 4 On the Add/Edit Profile Instance window, you can configure the alarms and actions for an alarm profile. Field Description Name A unique name for the alarm profile. Alarm Name These types of alarms can trigger an action. DM Alarms Alarm information appears on the dashboard of the Device Manager Web interface. SNMP Trap Alarm traps will be sent to an SNMP server, if SNMP is enabled on the Configure > Security > SNMP window.
Chapter 4 Manage the Switch via the Device Manager Web Interface Monitor Trends You can view historical data to help you to analyze traffic patterns and to identify problems. Data can be displayed in increments of seconds, minutes, hours, or days. To view the data in a table, click the Grid Mode button below the area. To display a chart, click the Chart Mode button. Use the 60s, 1h, 1 d, and 1 w links to display the data in increments of 60 seconds, 1 hour, 1 day, or 1 week.
Manage the Switch via the Device Manager Web Interface Monitor Port Statistics Chapter 4 You can view statistics for data sent and received by the switch ports since the switch was last powered on, was restarted, or since the statistics were last cleared. To monitor port statistics, from the Monitor menu, choose Port Statistics. See the Device Manager Web interface online help for additional information.
Chapter 4 Manage the Switch via the Device Manager Web Interface Monitor NAT Statistics You can monitor these types of NAT statistics: • Global statistics for all instances • Statistics per instance • Detailed private translations per instance • Detailed public translations per instance To display the NAT Statistics window, from the Monitor menu, choose NAT Statistics.
Manage the Switch via the Device Manager Web Interface Chapter 4 Table 20 - Instance Statistics Monitor REP Topology Field Description Selected Instance From the pull-down menu, choose the instance for which to view statistics. Current Active Translations The number of translations that have occurred within the last 90 seconds for the instance. Total NAT Translated Packets The total number of packets that have been translated for the instance.
Chapter 4 Manage the Switch via the Device Manager Web Interface Monitor CIP Status Common Industrial Protocol (CIP) is an application layer messaging protocol used by various industrial automation and control devices to communicate as part of a control system. CIP is the application layer for the EtherNet/IP network. Stratix switches contain an EtherNet/IP server that enables the switch to be part of the industrial automation and control system for basic management and monitoring.
Manage the Switch via the Device Manager Web Interface Chapter 4 Table 21 - CIP Status Fields Field Description Overview State The state of the CIP connection (Enabled or Disabled). Vlan The VLAN ID. CIP I/O Connection Owner The IP address of the device to and from which application-specific I/O output data is sent and received. CIP Config Session Owner The IP address of the device controlling the CIP configuration session.
Chapter 4 Manage the Switch via the Device Manager Web Interface Diagnose Cabling Problems Use the Diagnostics window to run the Broken Wire Detection test, which uses Time Domain Reflectometry (TDR) detection to identify, diagnose, and resolve cabling problems. TDR detection is supported on copper Ethernet 10/100 and 10/100/1000 ports. TDR is not supported on small form-factor pluggable (SFP) module ports. The link test can interrupt traffic between the port and the connected device.
Manage the Switch via the Device Manager Web Interface View System Log Messages Chapter 4 The system log displays events that occurred on the device and its ports, based on the Alarm Settings you configure on the Configure > Alarm Settings window. To view system log messages, from the Monitor menu, choose Syslog. To filter historical events, choose a severity filter or type filter: • Debugging—Debug messages. • Informational—Informational messages.
Chapter 4 Manage the Switch via the Device Manager Web Interface Use Express Setup to Change Switch Settings The network settings enable the switch to operate with its standard default settings and to be managed through the Device Manager Web interface. These settings were set during the initial setup. Change these settings if you want to move the switch to a different management VLAN or to a different network. To update the switch IP information, from the Admin menu, choose Express Setup.
Manage the Switch via the Device Manager Web Interface Chapter 4 Field Description IP Address The IP address and associated subnet mask are unique identifiers for the switch in a network: • The IP address format is a 32-bit numeric address written as four numbers separated by periods. Each number can be from 0…255. • The subnet mask is the network address that identifies the subnetwork (subnet) to which the switch belongs. Subnets are used to segment the devices in a network into smaller groups.
Chapter 4 Manage the Switch via the Device Manager Web Interface Manage Users To add, modify, or delete users and user logon information for the switch, from the Admin menu, choose Users. For each user, you can specify the information in the table below. Table 23 - Add User Fields 180 Field Description Name The user name for this user. Privilege The level of access for this user. All users are assigned the Admin privilege and can change all parameters.
Manage the Switch via the Device Manager Web Interface Reallocate Switch Memory for Routing Chapter 4 Switch Management Database (SDM) templates optimize how switch memory is allocated for specific features, such as routing. To enable routing, you must change the default SDM template to the Lanbase Routing template. To apply an SDM template, follow these steps. 1. From the Admin menu, choose SDM-Template. 2.
Chapter 4 Manage the Switch via the Device Manager Web Interface Restart the Switch Restarting or resetting the switch interrupts connectivity of your devices to the network. To restart or reset the switch, from the Admin menu, choose Restart/Reset. Table 24 - Restart/Reset Fields 182 Field Description Save running configuration and then restart the switch. Ensures that any changes in the running configuration are saved before the switch restarts.
Manage the Switch via the Device Manager Web Interface Upgrade the Switch Firmware Chapter 4 You must have access to the Internet to download switch firmware from http://www.rockwellautomation.com to your computer or network drive. To update the switch with the latest software changes and features, from the Admin menu, choose Software Update. From the Device Manager Web interface, you can upgrade your switches one at a time. With firmware revision 2.
Chapter 4 Manage the Switch via the Device Manager Web Interface Use the Sync window to synchronize the SD card with the onboard memory. On the Manual Sync tab, you can view the following: • Whether a card is present • Card status • If present, the source from which the switch was started Use the SD Card to Synchronize the Configuration or IOS Files You can choose to synchronize the configuration or the software IOS from either the SD card to the onboard memory or from the onboard memory to SD card.
Manage the Switch via the Device Manager Web Interface Chapter 4 Table 26 - Auto Sync Tab Fields Field Description Configuration Auto Sync—Automatically synchronize the configuration when a configuration change is made in the Device Manager Web interface. This is the default configuration. Prompt to Sync—After a user has submitted a configuration change, the user is prompted with a message asking to confirm the synchronization.
Chapter 4 Manage the Switch via the Device Manager Web Interface Upload and Download Configuration Files To copy a configuration file from a file on another device, such as a PC, to the onboard memory, enter the directory name of the folder on the switch, browse to select the file, and click Upload. To download a configuration file from the onboard memory to your computer, right-click the link and choose Save Link As.
Chapter 5 Manage the Switch via the Studio 5000 Environment Topic Page EtherNet/IP CIP Interface 188 Add a Switch to the I/O Configuration Tree 191 Configure General Properties 192 Connection Properties 195 Module Information 196 Switch Configuration Properties 197 Switch Status 199 Port Configuration 200 Power over Ethernet (PoE) 201 Smartports and VLANs 203 Port Thresholds 205 Port Security 206 Port Status 207 Port Diagnostics 208 Cable Diagnostics 209 DHCP Pool Display
Chapter 5 Manage the Switch via the Studio 5000 Environment EtherNet/IP CIP Interface Stratix 5700 switches contain an EtherNet/IP network interface. The EtherNet/IP network is an industrial automation network specification maintained by the Open DeviceNet Vendor Association (ODVA). It uses the Common Industrial Protocol (CIP) for its application layer and TCP/UDP/IP for its transport and network layers.
Manage the Switch via the Studio 5000 Environment Chapter 5 RSLinx Software and Network Who Support The EtherNet/IP network interface also supports the List Identity command used by CIP-based network tools, such as the RSLinx® software RSWho function. RSWho enables you to locate and identify your switch on the network by using the electronic data sheet (EDS) files. To access the RSWho function, from the RSLinx software toolbar, choose Communications > RSWho.
Chapter 5 Manage the Switch via the Studio 5000 Environment To upload the EDS files directly from the switch over the network, follow these steps. 1. From the Start menu, choose Programs > Rockwell Software > RSLinx >Tools > EDS Hardware Installation Tool. 2. Click Add to launch the EDS Wizard and add the selected hardware description and associated files.
Manage the Switch via the Studio 5000 Environment Chapter 5 • Configuration data (requires password) – – – – – – – – – – IP address method: DHCP, static IP address, subnet mask, default gateway (all if static) Host name Contact name Geographic location Port configuration per port: enable/disable, autonegotiate, forced speed/duplex Authorized MAC ID per port Unicast rate limiting threshold per port: in packets per second, bits per second, or percentage Multicast rate limiting threshold: in packets per sec
Chapter 5 Manage the Switch via the Studio 5000 Environment 5. Click the + sign and scroll down until you see the switch you want to configure. If you do not see the switch on the list, you can obtain the AOP from the Rockwell Automation support website. a. Go to http://www.rockwellautomation.com/support/. b. Click Downloads/RSLogix 5000 I/O Modules Add-on Profiles. c. Choose the 1783-Stratix 5700 Managed Switches Add-on Profile. 6. Click OK to display the Module Properties dialog box.
Manage the Switch via the Studio 5000 Environment Chapter 5 To configure general properties, follow these steps. 1. From the Module Properties dialog box, complete the fields described below. Field Description Name A name you choose for the switch. Description A description that helps you remember something important about the switch. Ethernet Address Choose one of the following: • Private Network—The private network on which the switch resides.
Chapter 5 Manage the Switch via the Studio 5000 Environment 6. Complete the fields on the Module Definition dialog box.
Manage the Switch via the Studio 5000 Environment Connection Properties Chapter 5 You can define connection properties for the switch on the Connection tab. Table 28 - Connection Tab Fields Field Description Requested Packet Interval (RPI) Enter a value between 300…5000. Inhibit Module Check to disable communication between the controller and the switch. Clear the checkbox to restore communication.
Chapter 5 Manage the Switch via the Studio 5000 Environment Module Information You can monitor and reset the switch from the Module Info tab.
Manage the Switch via the Studio 5000 Environment Switch Configuration Properties Chapter 5 You can configure IP settings and administrative parameters from the Switch Configuration tab. You must be online to perform these configurations. In Offline mode nothing is displayed on this tab. The IP address can be manually assigned (static) or it can be automatically assigned by a Dynamic Host Configuration Protocol (DHCP) server. The default is Static.
Chapter 5 Manage the Switch via the Studio 5000 Environment Table 30 - Switch Configuration Tab Fields Field Description IP Address This value must match the IP address on the General tab. If you reconfigure your switch with a different IP address, you can lose communication with the switch when you click Set. To correct this problem, you must go back to the Express Setup and General tab, set the new IP address, and download to the controller.
Manage the Switch via the Studio 5000 Environment Switch Status Chapter 5 From the Switch Status tab, you can view various status parameters for the switch.
Chapter 5 Manage the Switch via the Studio 5000 Environment Port Configuration Port configuration settings determine how data is received and sent between the switch and the attached device. You must be online to configure the port features. Most of the information on this tab is not displayed if you are offline. Table 32 - Port Configuration Tab Fields Field Description Port The port selected for configuration.
Manage the Switch via the Studio 5000 Environment Power over Ethernet (PoE) Chapter 5 PoE and PoE+ features are supported on switches with PoE ports when a correct power supply is connected to the switch. For power supply requirements, see page 44. You can do the following from the PoE window: • Limit the total power supported. • Configure mode and power settings for individual ports. For most applications, the default configuration (Auto mode) is sufficient and no further configuration is required.
Chapter 5 Manage the Switch via the Studio 5000 Environment Table 33 - PoE Tab Fields Field Description Port Displays the port number. Mode Displays the Power Management mode of the port: • Auto—Enables the detection of powered devices and automatically allocates power to the PoE port if a device is connected. This setting is selected by default. To limit the power used by this port, adjust the value Power Limit field.
Manage the Switch via the Studio 5000 Environment Chapter 5 Table 33 - PoE Tab Fields (continued) Field Description Total Power Supported To limit the total PoE power budget, type an appropriate value based on the power source: • A 48V power source supports a maximum of 65 W. • A 54V power source supports a maximum of 130 W. When you save this setting, it changes the total PoE power budget and resets the powered devices to meet the new budget.
Chapter 5 Manage the Switch via the Studio 5000 Environment Table 34 - Smartports and VLANs Tab Fields Field Description Port The port selected for configuration. The port number includes the port type (Fa for Fast Ethernet and Gi for Gigabit Ethernet) and the specific port number. EXAMPLE: Gi1/1 is Gigabit Ethernet port 1. Smartport Smartport roles are recommended configurations for the ports. These configurations are referred to as port roles.
Manage the Switch via the Studio 5000 Environment Port Thresholds Chapter 5 You can configure threshold limits for broadcast, unicast, and multicast traffic for each active port on the Port Thresholds tab. This feature is available only with Full firmware. The number of packets being sent is compared against the threshold value. These limits help to prevent a single device from sending too much traffic. For more information about this feature, see Port Thresholds on page 95.
Chapter 5 Manage the Switch via the Studio 5000 Environment The Port Security feature applies only to Full firmware. For more information, see Port Security on page 97. Port Security Table 36 - Port Security Tab Fields Field Description Port The port on which you want to enable or disable security. Enable Check the checkbox to enable port security. MAC Addresses The number of supported dynamic or static MAC addresses. • Allowed—1…80.
Manage the Switch via the Studio 5000 Environment Chapter 5 The Port Status tab lets you monitor alarms, statuses, thresholds, and bandwidth utilization. You can also view port and cable diagnostics. Port Status Table 37 - Port Status Tab Fields Field Description Port Displays the selected port. The port number includes the port type (Fa for Fast Ethernet and Gi for Gigabit Ethernet) and the specific port number. EXAMPLE: Gi1/1 is Gigabit Ethernet port 1.
Chapter 5 Manage the Switch via the Studio 5000 Environment Use the Port Diagnostics dialog box to view the status of the link performance: • View octet and packet counters • View collisions on the link • View errors on the link • Reset and clear all status counters Port Diagnostics Table 38 - Port Diagnostics Dialog Box Fields 208 Field Description Port The port selected for configuration.
Manage the Switch via the Studio 5000 Environment Cable Diagnostics Chapter 5 The Cable Diagnostics dialog box provides information to diagnose a cable issue. TIP The information on this tab is not displayed if you are offline. Table 39 - Cable Diagnostics Port Dialog Box Fields Field Description Port The port selected for configuration. The port number includes the port type (Fa for Fast Ethernet and Gi for Gigabit Ethernet), and the specific port number. EXAMPLE: Gi1/1 is Gigabit Ethernet port 1.
Chapter 5 Manage the Switch via the Studio 5000 Environment You can view DHCP address pool information for the switch from the DHCP Pool Display tab. You can view 0…15 pools. This information is gathered directly from the switch. Each row represents a single instance, and instance values cannot be consecutive. DHCP Pool Display TIP The information on this tab is not displayed if you are offline.
Manage the Switch via the Studio 5000 Environment Chapter 5 Table 40 - DHCP Pool Dislay Tab Fields (continued) Field Description Edit Pool Properties Click to display the DHCP Pool Definition and Edit dialog box and populate it with values from the instance corresponding to the current row. The Edit column button is available only when the switch is online, the Enable Dynamic Host Configuration Protocol (DHCP) checkbox is selected, and when the respective row is populated.
Chapter 5 Manage the Switch via the Studio 5000 Environment DHCP Address Assignment You can view and configure DHCP persistence from the DHCP Address Assignment tab. With DHCP persistence, you can assign a specific IP address to each port, so that the device attached to a specific port receives the same IP address. TIP The information on this tab is not displayed if you are offline.
Manage the Switch via the Studio 5000 Environment Time Sync Configuration Chapter 5 Use this feature to synchronize the ports through PTP. PTP synchronizes with nanosecond accuracy the real-time clocks of the devices in a network. By using the best master clock selection, the switch identifies the switch port that is connected to a device with the best clock source. The switch then synchronizes its internal clock with the best clock source and the switch port is set to master state.
Chapter 5 Manage the Switch via the Studio 5000 Environment Table 42 - Time Sync Configuration Tab Fields Field Description Switch PTP Enable Check to enable the PTP on the device. By default, PTP is enabled on all of the Fast Ethernet and Gigabit Ethernet ports on the switch. Clear the checkbox to disable the PTP on the device. The Port Enable and Port State features appear dimmed when the Switch PTP Enable checkbox is cleared. Port Displays the port selected for configuration.
Manage the Switch via the Studio 5000 Environment NAT Configuration Chapter 5 You can create NAT instances from the NAT tab. Table 43 - NAT Tab Fields Field Description Name Displays the unique name of the NAT instance. Gi1/1 VLANs Displays the VLANs assigned to each NAT instance on port Gi1/1. Gi1/2 VLANs Displays the VLANs assigned to each NAT instance on port Gi1/2. Delete Click to permanently delete a NAT instance. The switch deletes the instance when you click Set.
Chapter 5 Manage the Switch via the Studio 5000 Environment To configure NAT, follow one of these procedures based on your application: • Create NAT Instances for Traffic Routed through a Layer 3 Switch or Router For an example of this application, see Figure 4 on page 102. • Create NAT Instances for Traffic Routed through a Layer 2 Switch For an example of this application, see Figure 5 on page 103. IMPORTANT Set up all Smartport roles and VLANs before creating NAT instances.
Manage the Switch via the Studio 5000 Environment Chapter 5 2. In the Name field, type a unique name to identify the instance. The instance name cannot include spaces or exceed 32 characters. 3. In the VLAN Association area, check the checkbox next to each VLAN to assign to the instance. For more information about VLAN assignments, see page 105. 4. Click New Entry to display the New Entry dialog box.
Chapter 5 Manage the Switch via the Studio 5000 Environment 5. Do one of the following: • To translate a single address for a device on the private subnet that needs to communicate on the public subnet, complete the fields below. Field Description Type of Entry Choose Single. This is the default value. Starting Private IP Address Type the existing address for the device on the private subnet. Starting Public IP Address Type a unique public address to represent the device.
Manage the Switch via the Studio 5000 Environment Chapter 5 • To translate all of the addresses in the private subnet or a portion of the private subnet, complete the fields below. Field Description Type of Entry Choose Subnet. Starting Private IP Address Type the existing starting address for a device on the private subnet. This address must correspond to the size of the subnet mask to translate as shown below. Starting Public IP Address Subnet Mask Starting Private Subnet Address 255.255.0.
Chapter 5 Manage the Switch via the Studio 5000 Environment 6. Click OK. 7. Complete the Gateway Translation fields to enable devices on the public subnet to communicate with devices on the private subnet: • Public—Type the default gateway address of the Layer 3 switch or router connected to the switch’s uplink port. • Private—Type a unique IP address to represent the Layer 3 switch or router on the private network. 8.
Manage the Switch via the Studio 5000 Environment Chapter 5 2. In the Name field, type a unique name to identify the instance. The instance name cannot include spaces or exceed 32 characters. 3. From the list of VLANs on the right, check the checkbox next to each VLAN to assign to the instance. For more information about VLAN assignments, see page 105. 4. Click New Entry to display the New Entry dialog box.
Chapter 5 Manage the Switch via the Studio 5000 Environment 5. Do one of the following: • To translate a single address for a device on the private subnet that needs to communicate on the public subnet, complete the fields below. Field Description Type of Entry Choose Single. This is the default value. Starting Private IP Address Type the existing address for the device on the private subnet. Starting Public IP Address Type a unique public address to represent the device.
Manage the Switch via the Studio 5000 Environment Chapter 5 • To translate all of the addresses in the private subnet or a portion of the private subnet, complete the fields as described in the table below. Field Description Type of Entry Choose Subnet. Starting Private IP Address Type the existing starting address for a device on the private subnet. This address must correspond to the size of the subnet mask to translate as shown below.
Chapter 5 Manage the Switch via the Studio 5000 Environment Field Description Subnet Mask From the pull-down menus, choose the subnet mask for the addresses to translate. Valid values: • Class B: 255.255.0.0 • Class C: 255.255.255.0 • Portion of Class C: – 255.255.255.128 (provides 128 addresses per translation entry – 255.255.255.192 (provides 64 addresses per translation entry – 255.255.255.224 (provides 32 addresses per translation entry – 255.255.255.
Manage the Switch via the Studio 5000 Environment Chapter 5 8. Click New Entry to display the New Entry dialog box. 9. Do one of the following: • To translate a single address for a device on the public subnet that needs to communicate on the private subnet, complete the fields below. Field Description Type of Entry Choose Single. This is the default value. Starting Public IP Address Type the existing address for the device on the public subnet.
Chapter 5 Manage the Switch via the Studio 5000 Environment • To translate all of the addresses in the public subnet or a portion of the public subnet, complete the fields as described in the table below. Field Description Type of Entry Choose Subnet. Starting Public IP Address Type the existing starting address for a device on the public subnet. This address must correspond to the size of the subnet mask to translate as shown below.
Manage the Switch via the Studio 5000 Environment Chapter 5 Field Description Subnet Mask From the pull-down menus, choose the subnet mask for the addresses to translate. Valid values: • Class B: 255.255.0.0 • Class C: 255.255.255.0 • Portion of Class C: – 255.255.255.128 (provides 128 addresses per translation entry – 255.255.255.192 (provides 64 addresses per translation entry – 255.255.255.224 (provides 32 addresses per translation entry – 255.255.255.
Chapter 5 Manage the Switch via the Studio 5000 Environment Configure Traffic Permits and Fixups Use caution when configuring traffic permits and fixups. We recommend you use the default values. To configure traffic permits or packet fixups, follow these steps. 1. Click the Advanced tab. 2. In the Traffic Permits grid, choose one of these options for incoming and outgoing packets that are not handled by NAT: • Pass-Through—Permit the packets to pass across the NAT boundary. • Blocked—Drop the packets. 3.
Manage the Switch via the Studio 5000 Environment Chapter 5 View Address Translations in RSLinx Software The Ethernet driver in RSLinx software supports devices with address translations. If a device’s address is configured for translation, its public subnet address appears on the main dialog box of RSLinx sofware. However, its private subnet address appears in the device’s configuration properties.
Chapter 5 Manage the Switch via the Studio 5000 Environment The NAT Diagnostics dialog box displays diagnostics for the selected instance. Table 44 - NAT Diagnostics per Instance Field Description Current Active Translations Displays the number of translations that have occurred within the last 90 seconds across all NAT instances. Total NAT Translated Packets Displays the total number of packets that have been translated for this instance.
Manage the Switch via the Studio 5000 Environment Chapter 5 Private-to-Public Translation Diagnostics From the Private to Public Translations dialog box for an instance, you can view a list of IP addresses that have been changed by NAT within the last 90 seconds. Table 45 - Private-to-Public Translation Diagnostics Field Description Private Displays the existing address for a device on the private subnet.
Chapter 5 Manage the Switch via the Studio 5000 Environment Public-to-Private Translation Diagnostics From the Public to Private Translations dialog box for an instance, you can view a list of IP addresses that have been changed by NAT within the last 90 seconds. Table 46 - Public-to-Private Translation Diagnostics 232 Field Description Public Displays the unique IP address on the public subnet that represents the corresponding IP address on the private subnet.
Manage the Switch via the Studio 5000 Environment SD Flash Sync Chapter 5 You can sync the SD card to either the configuration file or the entire image. IMPORTANT You can overwrite your configuration if you synchronize in the wrong direction. Table 47 - SD Flash Sync Tab Fields Field Description SD Flash Status Indicates whether the SD card is present and the card’s status. Synchronization Status Indicates whether the configuration files and the IOS are synchronized or unsynchronized.
Chapter 5 Manage the Switch via the Studio 5000 Environment Save and Restore the Switch Configuration Use this tab to do the following: • Save the switch configuration to a file for archiving • Restore a switch configuration stored locally on the computer or within the Logix Designer application project. You must be online to save and restore configuration files. Most of the settings appear dimmed when the switch is offline.
Chapter 6 Troubleshoot the Switch Topic Page Verify Boot Fast 235 IP Address Issues 235 Device Manager Web Interface Issues 236 Switch Performance 237 Access Direct Managed Mode 237 Restart or Reset the Switch 239 Recover the Switch Firmware and Restore Factory Defaults 240 Troubleshoot a Firmware Upgrade 241 This chapter helps you resolve issues related to Stratix 5700 switches, as well as perform common functions such as resetting the switch.
Chapter 6 Troubleshoot the Switch Device Manager Web Interface Issues These are some basic troubleshooting for issues related to displaying the Device Manager Web interface. Issue Resolution Device Manager Web interface does not display If you cannot display the Device Manager Web interface from your computer or laptop, make sure that you entered the correct switch IP address in the browser.
Troubleshoot the Switch Switch Performance Chapter 6 These are some basic troubleshooting for issues related to switch performance. Issue Resolution Speed, Duplex, and Autonegotiation If the port statistics show a large amount of alignment errors, frame check sequence (FCS), or late-collisions errors, this can indicate a speed or duplex mismatch.
Chapter 6 Troubleshoot the Switch To access the Direct Managed mode, follow these steps. 1. Press the Express Setup button until the Setup status indicator blinks green and the status indicator of an available switch downlink port blinks green. The port with a blinking green status indicator is designated as the Direct Managed mode port.
Troubleshoot the Switch Restart or Reset the Switch Chapter 6 If you cannot solve an issue by reconfiguring a feature, either restarting or resetting the switch can solve the issue or help you to eliminate probable causes. If the issue exists after you reset the switch to its default settings, it is unlikely that the switch is causing the issue. Option Description Restart This option restarts the switch without turning off power.
Chapter 6 Troubleshoot the Switch Reset the Switch to Factory Defaults ATTENTION: Resetting the switch deletes all customized switch settings, including the IP address, and returns the switch to its factory default. The same software image is retained. To manage the switch or to display the device manager, you need to reconfigure the basic switch settings (as described in Chapter 4, Manage the Switch via the Device Manager Web Interface ) and use the new IP address.
Troubleshoot the Switch Chapter 6 3. Wait for the switch to restart. The Express Setup indicator begins flashing when the switch has completed restarting. The switch has now been returned to factory defaults. 4. Set up the switch, as described in ArmorStratix 5700 Switch Installation on page 57. 5. Refer to Troubleshoot a Firmware Upgrade on page 241 and follow the procedure to upgrade the firmware.
Chapter 6 Troubleshoot the Switch Notes: 242 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Appendix A Module-defined Data Types Topic Page Module-defined Input Data Type (6-port Gb switches) 245 Module-defined Output Data Type (6-port Gb switches) 246 Module-defined Input Data Type (6-port switches) 246 Module-defined Output Data Type (6-port switches) 247 Module-defined Input Data Type (8-port switches) 247 Module-defined Output Data Type (8-port switches) 248 Module-defined Input Data Type (10-port Gb switches) 249 Module-defined Output Data Type (10-port Gb switches) 250 M
Appendix A Module-defined Data Types In the Logix Designer application, predefined tags for Input and Output data types have a structure corresponding to the switch selected when it was added to the I/O tree. Its members are named in accordance with the port names. You can disable a switch port by setting the corresponding bit in the output tag. The output bits are applied every time the switch receives the output data from the controller when the controller is in Run mode.
Module-defined Data Types Module-defined Input Data Type (6-port Gb switches) Appendix A AB:STRATIX_5700_6PORT_GB_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa1_1Connected BOOL Decimal LinkStatus:1 PortFa1_2Connected BOOL Decimal LinkStatus:2 PortFa1_3Connected BOOL Decimal LinkStatus:3 PortFa1_4Connected BOOL Decimal LinkStatus:4 PortGi1_1Connected BOOL Decimal LinkStatus:5 PortGi1_2Conne
Appendix A Module-defined Data Types Module-defined Output Data Type (6-port Gb switches) Module-defined Input Data Type (6-port switches) 246 AB:STRATIX_5700_6PORT_GB_MANAGED:O:0 Member Name Type Default Display Style Valid Values AllPortsDisabled BOOL Decimal DisablePort:0 PortFa1_1Disable BOOL Decimal DisablePort:1 PortFa1_2Disable BOOL Decimal DisablePort:2 PortFa1_3Disable BOOL Decimal DisablePort:3 PortFa1_4Disable BOOL Decimal DisablePort:4 PortGi1_1Disable BOOL Decimal
Module-defined Data Types Appendix A AB:STRATIX_5700_6PORT_MANAGED:I:0 Member Name Module-defined Output Data Type (6-port switches) Module-defined Input Data Type (8-port switches) Type Default Display Style PortFa1_5Utilization SINT Decimal PortFa1_6Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DINT Binary Valid Values AlarmRelay:0 AB:STRATIX_5700_6PORT_MANAGED:O:0 Member Name Type Default Display Style Valid Values AllPortsDisabled BOOL Decimal Di
Appendix A Module-defined Data Types AB:STRATIX_5700_8PORT_MANAGED:I:0 Member Name Module-defined Output Data Type (8-port switches) 248 Type Default Display Style Valid Values PortFa1_8UnauthorizedDevice BOOL Decimal UnauthorizedDevice:8 AnyPortThreshold BOOL Decimal ThresholdExceeded:0 PortFa1_1Threshold BOOL Decimal ThresholdExceeded:1 PortFa1_2Threshold BOOL Decimal ThresholdExceeded:2 PortFa1_3Threshold BOOL Decimal ThresholdExceeded:3 PortFa1_4Threshold BOOL Decimal Thre
Module-defined Data Types Module-defined Input Data Type (10-port Gb switches) Appendix A AB:STRATIX_5700_10PORT_GB_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa1_1Connected BOOL Decimal LinkStatus:1 PortFa1_2Connected BOOL Decimal LinkStatus:2 PortFa1_3Connected BOOL Decimal LinkStatus:3 PortFa1_4Connected BOOL Decimal LinkStatus:4 PortFa1_5Connected BOOL Decimal LinkStatus:5 PortFa1_6Con
Appendix A Module-defined Data Types AB:STRATIX_5700_10PORT_GB_MANAGED:I:0 Member Name Module-defined Output Data Type (10-port Gb switches) Module-defined Input Data Type (10-port switches) 250 Type Default Display Style PortFa1_5Utilization SINT Decimal PortFa1_6Utilization SINT Decimal PortFa1_7Utilization SINT Decimal PortFa1_8Utilization SINT Decimal PortGi1_1Utilization SINT Decimal PortGi1_2Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DINT
Module-defined Data Types Appendix A AB:STRATIX_5700_10PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values AnyPortUnauthorizedDevice BOOL Decimal UnauthorizedDevice:0 PortFa1_1UnauthorizedDevice BOOL Decimal UnauthorizedDevice:1 PortFa1_2UnauthorizedDevice BOOL Decimal UnauthorizedDevice:2 PortFa1_3UnauthorizedDevice BOOL Decimal UnauthorizedDevice:3 PortFa1_4UnauthorizedDevice BOOL Decimal UnauthorizedDevice:4 PortFa1_5UnauthorizedDevice BOOL Decimal Unauthoriz
Appendix A Module-defined Data Types Module-defined Output Data Type (10-port switches) Module-defined Input Data Type (16-port switches) 252 AB:STRATIX_5700_10PORT_MANAGED:O:0 Member Name Type Default Display Style Valid Values AllPortsDisabled BOOL Decimal DisablePort:0 PortFa1_1Disable BOOL Decimal DisablePort:1 PortFa1_2Disable BOOL Decimal DisablePort:2 PortFa1_3Disable BOOL Decimal DisablePort:3 PortFa1_4Disable BOOL Decimal DisablePort:4 PortFa1_5Disable BOOL Decimal Di
Module-defined Data Types Appendix A AB:STRATIX_5700_16PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values PortFa1_6UnauthorizedDevice BOOL Decimal UnauthorizedDevice:6 PortFa1_7UnauthorizedDevice BOOL Decimal UnauthorizedDevice:7 PortFa1_8UnauthorizedDevice BOOL Decimal UnauthorizedDevice:8 PortFa1_9UnauthorizedDevice BOOL Decimal UnauthorizedDevice:9 PortFa1_10UnauthorizedDevice BOOL Decimal UnauthorizedDevice:10 PortFa1_11UnauthorizedDevice BOOL Decimal Unaut
Appendix A Module-defined Data Types AB:STRATIX_5700_16PORT_MANAGED:I:0 Member Name Module-defined Output Data Type (16-port switches) Module-defined Input Data Type (20-port Gb switches) 254 Type Default Display Style PortFa1_11Utilization SINT Decimal PortFa1_12Utilization SINT Decimal PortFa1_13Utilization SINT Decimal PortFa1_14Utilization SINT Decimal PortFa1_15Utilization SINT Decimal PortFa1_16Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DI
Module-defined Data Types Appendix A AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name Type Default Display Style Valid Values PortFa1_4Connected BOOL Decimal LinkStatus:4 PortFa1_5Connected BOOL Decimal LinkStatus:5 PortFa1_6Connected BOOL Decimal LinkStatus:6 PortFa1_7Connected BOOL Decimal LinkStatus:7 PortFa1_8Connected BOOL Decimal LinkStatus:8 PortFa1_9Connected BOOL Decimal LinkStatus:9 PortFa1_10Connected BOOL Decimal LinkStatus:10 PortFa1_11Connected BOOL Decimal
Appendix A Module-defined Data Types AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name 256 Type Default Display Style Valid Values PortFa1_1Threshold BOOL Decimal ThresholdExceeded:1 PortFa1_2Threshold BOOL Decimal ThresholdExceeded:2 PortFa1_3Threshold BOOL Decimal ThresholdExceeded:3 PortFa1_4Threshold BOOL Decimal ThresholdExceeded:4 PortFa1_5Threshold BOOL Decimal ThresholdExceeded:5 PortFa1_6Threshold BOOL Decimal ThresholdExceeded:6 PortFa1_7Threshold BOOL Decimal Thr
Module-defined Data Types Appendix A AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name Module-defined Input Data Type (18-port Gb switches) Type Default Display Style PortGi1_1Utilization SINT Decimal PortGi1_2Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DINT Binary Valid Values AlarmRelay:0 AB:STRATIX_5700_18PORT_GB_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa
Appendix A Module-defined Data Types AB:STRATIX_5700_18PORT_GB_MANAGED:I:0 Member Name 258 Type Default Display Style Valid Values PortFa1_10UnauthorizedDevice BOOL Decimal UnauthorizedDevice:10 PortFa1_11UnauthorizedDevice BOOL Decimal UnauthorizedDevice:11 PortFa1_12UnauthorizedDevice BOOL Decimal UnauthorizedDevice:12 PortFa1_13UnauthorizedDevice BOOL Decimal UnauthorizedDevice:13 PortFa1_14UnauthorizedDevice BOOL Decimal UnauthorizedDevice:14 PortFa1_15UnauthorizedDevice BOOL
Module-defined Data Types Appendix A AB:STRATIX_5700_18PORT_GB_MANAGED:I:0 Member Name Type Default Display Style PortFa1_11Utilization SINT Decimal PortFa1_12Utilization SINT Decimal PortFa1_13Utilization SINT Decimal PortFa1_14Utilization SINT Decimal PortFa1_15Utilization SINT Decimal PortFa1_16Utilization SINT Decimal PortGi1_1Utilization SINT Decimal PortGi1_2Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DINT Binary Rockwell Automation Pu
Appendix A Module-defined Data Types Module-defined Output Data Type (18-port Gb switches) 260 AB:STRATIX_5700_20PORT_GB_MANAGED:O:0 Member Name Type Default Display Style Valid Values AllPortsDisabled BOOL Decimal DisablePort:0 PortFa1_1Disable BOOL Decimal DisablePort:1 PortFa1_2Disable BOOL Decimal DisablePort:2 PortFa1_3Disable BOOL Decimal DisablePort:3 PortFa1_4Disable BOOL Decimal DisablePort:4 PortFa1_5Disable BOOL Decimal DisablePort:5 PortFa1_6Disable BOOL Decimal
Module-defined Data Types Module-defined Input Data Type (20-port Gb switches) Appendix A AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa1_1Connected BOOL Decimal LinkStatus:1 PortFa1_2Connected BOOL Decimal LinkStatus:2 PortFa1_3Connected BOOL Decimal LinkStatus:3 PortFa1_4Connected BOOL Decimal LinkStatus:4 PortFa1_5Connected BOOL Decimal LinkStatus:5 PortFa1_6Con
Appendix A Module-defined Data Types AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name 262 Type Default Display Style Valid Values PortFa1_16UnauthorizedDevice BOOL Decimal UnauthorizedDevice:16 PortFa1_17UnauthorizedDevice BOOL Decimal UnauthorizedDevice:17 PortFa1_18UnauthorizedDevice BOOL Decimal UnauthorizedDevice:18 PortGi1_1UnauthorizedDevice BOOL Decimal UnauthorizedDevice:19 PortGi1_2UnauthorizedDevice BOOL Decimal UnauthorizedDevice:20 AnyPortThreshold BOOL Decimal Thr
Module-defined Data Types Appendix A AB:STRATIX_5700_20PORT_GB_MANAGED:I:0 Member Name Module-defined Output Data Type (20-port Gb switches) Type Default Display Style PortFa1_13Utilization SINT Decimal PortFa1_14Utilization SINT Decimal PortFa1_15Utilization SINT Decimal PortFa1_16Utilization SINT Decimal PortFa1_17Utilization SINT Decimal PortFa1_18Utilization SINT Decimal PortGi1_1Utilization SINT Decimal PortGi1_2Utilization SINT Decimal MajorAlarmRelay BOOL Decimal Mult
Appendix A Module-defined Data Types Module-defined Input Data Type (20-port switches) 264 AB:STRATIX_5700_20PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa1_1Connected BOOL Decimal LinkStatus:1 PortFa1_2Connected BOOL Decimal LinkStatus:2 PortFa1_3Connected BOOL Decimal LinkStatus:3 PortFa1_4Connected BOOL Decimal LinkStatus:4 PortFa1_5Connected BOOL Decimal LinkStatus:5 PortFa1_6Conne
Module-defined Data Types Appendix A AB:STRATIX_5700_20PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values PortFa1_17UnauthorizedDevice BOOL Decimal UnauthorizedDevice:17 PortFa1_18UnauthorizedDevice BOOL Decimal UnauthorizedDevice:18 PortFa1_19UnauthorizedDevice BOOL Decimal UnauthorizedDevice:19 PortFa1_20UnauthorizedDevice BOOL Decimal UnauthorizedDevice:20 AnyPortThreshold BOOL Decimal ThresholdExceeded:0 PortFa1_1Threshold BOOL Decimal ThresholdExceeded:1 P
Appendix A Module-defined Data Types AB:STRATIX_5700_20PORT_MANAGED:I:0 Member Name Module-defined Output Data Type (20-port switches) 266 Type Default Display Style Valid Values PortFa1_14Utilization SINT Decimal PortFa1_15Utilization SINT Decimal PortFa1_16Utilization SINT Decimal PortFa1_17Utilization SINT Decimal PortFa1_18Utilization SINT Decimal PortFa1_19Utilization SINT Decimal PortFa1_20Utilization SINT Decimal MajorAlarmRelay BOOL Decimal MulticastGroupsActive DINT
Module-defined Data Types Module-defined Input Data Type (24-port switches) Appendix A AB:STRATIX_5700_24PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values Fault DINT Binary AnyPortConnected BOOL Decimal LinkStatus:0 PortFa1_1Connected BOOL Decimal LinkStatus:1 PortFa1_2Connected BOOL Decimal LinkStatus:2 PortFa1_3Connected BOOL Decimal LinkStatus:3 PortFa1_4Connected BOOL Decimal LinkStatus:4 PortFa1_5Connected BOOL Decimal LinkStatus:5 PortFa1_6Connected
Appendix A Module-defined Data Types AB:STRATIX_5700_24PORT_MANAGED:I:0 Member Name 268 Type Default Display Style Valid Values PortFa1_13UnauthorizedDevice BOOL Decimal UnauthorizedDevice:13 PortFa1_14UnauthorizedDevice BOOL Decimal UnauthorizedDevice:14 PortFa1_15UnauthorizedDevice BOOL Decimal UnauthorizedDevice:15 PortFa1_16UnauthorizedDevice BOOL Decimal UnauthorizedDevice:16 PortFa1_17UnauthorizedDevice BOOL Decimal UnauthorizedDevice:17 PortFa1_18UnauthorizedDevice BOOL De
Module-defined Data Types Appendix A AB:STRATIX_5700_24PORT_MANAGED:I:0 Member Name Type Default Display Style Valid Values PortFa1_2Utilization SINT Decimal PortFa1_3Utilization SINT Decimal PortFa1_4Utilization SINT Decimal PortFa1_5Utilization SINT Decimal PortFa1_6Utilization SINT Decimal PortFa1_7Utilization SINT Decimal PortFa1_8Utilization SINT Decimal PortFa1_9Utilization SINT Decimal PortFa1_10Utilization SINT Decimal PortFa1_11Utilization SINT Decimal PortFa1_12U
Appendix A Module-defined Data Types Module-defined Output Data Type (24-port switches) 270 AB:STRATIX_5700_24PORT_MANAGED:O:0 Member Name Type Default Display Style Valid Values AllPortsDisabled BOOL Decimal DisablePort:0 PortFa1_1Disable BOOL Decimal DisablePort:1 PortFa1_2Disable BOOL Decimal DisablePort:2 PortFa1_3Disable BOOL Decimal DisablePort:3 PortFa1_4Disable BOOL Decimal DisablePort:4 PortFa1_5Disable BOOL Decimal DisablePort:5 PortFa1_6Disable BOOL Decimal Disab
Appendix B Port Assignments for CIP Data This table identifies the instance numbers of the Ethernet link object associated with each port on the switch. Instance 0 does not apply to all the ports as it does for bit maps. The bit numbers identify each port when they are contained in a structure of all the ports, such as in the output assembly. Bit 0 refers to any or all ports.
Appendix B Port Assignments for CIP Data Notes: 272 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Appendix C Cables and Connectors Topic Page 10/100 and 10/100/1000 Ports 273 Dual-purpose Ports (combo ports) 276 Console Ports 277 Alarm Ports 279 Cable and Adapter Specifications 280 Adapter Pinouts 280 For recommended cables, refer to the Stratix Ethernet Device Specifications Technical Data, publication 1783-TD001. 10/100 and 10/100/1000 Ports The 10/100 and 10/100/1000 Ethernet ports on switches use standard RJ45 connectors and Ethernet pinouts with internal crossovers.
Appendix C Cables and Connectors Figure 11 - 10/100/1000 Connector Pinouts Pin Label 1 TP0+ 2 TP0- 3 TP1+ 4 TP2+ 5 TP2- 6 TP1- 7 TP3+ 8 TP3- 1 2 3 4 5 6 7 8 PoE ports integrate power and data signals on the same wires. The ports use standard RJ45 connectors and Ethernet pinouts with internal crossovers.
Cables and Connectors Appendix C Figure 13 - Two Twisted-pair Straight-through Cable Schematic Switch Router or Personal Computer 3 TD+ 6 TD– 3 RD+ 6 RD– 1 RD+ 1 TD+ 2 TD– 2 RD– Figure 14 - Four Twisted-pair Straight-through Cable Schematic Switch Router or Personal Computer 1 TPO+ 1 TP1+ 2 TPO- 2 TP1- 3 TP1+ 3 TPO+ 6 TP1- 6 TPO- 4 TP2+ 4 TP3+ 5 TP2- 5 TP3- 7 TP3+ 7 TP2+ 8 TP3- 8 TP2- When connecting the ports to 10BASE-T- and 100BASE-TX-compatible devices, such as switches or rep
Appendix C Cables and Connectors Switch Switch 3 TD+ 6 TD– 3 TD+ 6 TD– 1 RD+ 2 RD– 1 RD+ 2 RD– H5579 Figure 15 - Two Twisted-pair Crossover Cable Schematic Figure 16 - Four Twisted-pair Crossover Cable Schematic Dual-purpose Ports (combo ports) Switch Switch 1 TPO+ 1 TP0+ 2 TPO- 2 TP0- 3 TP1+ 3 TP1+ 6 TP1- 6 TP1- 4 TP2+ 4 TP2+ 5 TP2- 5 TP2- 7 TP3+ 7 TP3+ 8 TP3- 8 TP3- The Ethernet port on a dual-purpose port uses standard RJ45 connectors. The following figure shows the pinouts.
Cables and Connectors Console Ports Appendix C Console ports enable you to connect a switch to a computer if you use the Command-line interface (CLI) to configure and monitor a switch. Stratix 5700 Console Ports Stratix 5700 switches have two console ports: • A USB 5-pin mini-Type B port on the front panel • An RJ45 console port on the rear panel Only one console port can be active at one time. The USB console port uses a USB Type A to 5-pin mini-Type B cable.
Appendix C Cables and Connectors ArmorStratix 5700 Console Port ArmorStratix 5700 switches have one console port. The console port uses a male 5-pin DC Micro-style (M12) connector configuration cordset, such as Allen-Bradley Bulletin 889D. For more information, see publication 889DS-PP001. Figure 18 - Console Port Pinout 1 2 5 4 3 4. RXD 5. GND 1. RTS 2. CTS 3.
Cables and Connectors Alarm Ports Appendix C The front-panel alarm relay connector and ports are described below. The alarm connector uses a male 5-pin DC Micro-style (M12) connector configuration cordset, such as Allen-Bradley Bulletin 889D. For more information, see publication 889DS-PP001. Figure 20 - Alarm Connector Pinout 1 2 5 4 3 1. NO 2. NC 3. Unconnected 4. Unconnected 5.
Appendix C Cables and Connectors These sections describe the cables and adapters used with the switches. Cable and Adapter Specifications SFP Module Cable Specifications The following lists the cable specifications for the rugged fiber-optic SFP module connections. Each port must match the wave-length specifications on the other end of the cable, and for reliable communication, the cable must not exceed the rated maximum cable length.
Cables and Connectors Appendix C The following table lists the pinouts for the console port, RJ45-to-DB-25 female DTE adapter, and the console device. The RJ45-to-DB-25 female DTE adapter is not supplied with the switch.
Appendix C Cables and Connectors Notes: 282 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Appendix D History of Changes Topic Page 1783-UM004D-EN-P, March 2014 283 1783-UM004C-EN-P, December 2013 283 1783-UM004B-EN-P, June 2013 285 This appendix summarizes the revisions to this manual. Reference this appendix if you need information to determine what changes have been made across multiple revisions. This can be especially useful if you are deciding to upgrade your hardware or software based on information added with previous revisions of this manual.
Appendix D History of Changes PoE feature descriptions Configure PoE via the Device Manager Web interface PoE port connector pinouts and cable specifications 284 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
History of Changes 1783-UM004B-EN-P, June 2013 Appendix D Change Studio 5000 Logix Designer™ application is the rebranding of RSLogix 5000 software Description of 1783-BMS10CGN and 1783-BMS20CGN switches Network address translation (NAT) software feature Port numbering for 1783-BMS10CGN and 1783-BMS20CGN switches Overview of NAT Configure NAT via the Device Manager Web interface Monitor NAT statistics via the Device Manager Web interface Configure NAT via the Logix Designer application Monitor NAT diagno
Appendix D 286 History of Changes Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
Index Numerics 10/100 ports cable lengths 32, 58 connecting to 52, 66 10/100/1000 ports cable lengths 32, 58 connecting to 52, 66 A adapter pinouts terminal RJ45-to-DB-25 281 RJ45-to-DB-9 280 address aliasing 93 address translation 101 airflow, required clearance 31, 58 alarm relay connections connection procedures 50, 51, 65 alert log 177 allocation, memory 57, 67 announce interval 147 announce receipt timeout interval 147 ArmorStratix switches catalog number descriptions 16 dimensions 21 installation 57-
Index DHCP address assignment 212 IP address pool 138 persistence 139 pool display 210 server 100 troubleshoot 235 Direct Managed mode 237 DNS server1 and 2 139 domain name 139 dual-purpose ports connectors and cables 276 duplex troubleshooting 237 Duplex mode default 133 setting 133 E electrical noise, avoiding 32, 58 electrostatic discharge 36, 57 End-to-end Transparent mode 145 EtherChannels creating 135 deleting 135 modifying 135 EtherNet/IP protocol 83, 174, 204 F firmware upgrade, troubleshoot 241
Index N NAT configuration considerations 106 configuration overview 101 configure via Device Manager Web interface 153-162 configure via Logix Designer application 215228 definition 101 diagnostics 172, 229-232 management interface 105 traffic permits and fixups 106, 161, 228 translation entry types 104 network address translation.
Index S save and restore 234 SD card install or remove 33, 59 synchronize configuration 184 synchronize IOS files 184 SD Flash Sync 233 SDM template 181 security configure for ports 162 violations 98 segment ID 152 segment topology change notices See also STCNs 152 SFP modules bale-clasp latch removal 48 cables 280 connecting to 55 Smartport roles applying 125 changing VLAN memberships 126 customization 126 optimize ports 83 mismatch prevention 84 Smartport roles and NAT 105 Smartport roles and VLANs 203 S
Index U unicast storm 95 upgrade firmware 183 V verify switch operation 34, 60 verifying switch operation 35, 60 View list 121 VLAN memberships changing 126 prerequisite 126 VLANs assign to NAT instance 105, 154, 157, 217, 221 default VLAN 90 grouping different users 92 isolate traffic 92 management VLAN 90 W warnings functional ground lug 62 WINS server1 and 2 139 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014 291
Index Notes: 292 Rockwell Automation Publication 1783-UM004E-EN-P - June 2014
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