AUTOMATIONWORX User Manual FL SWITCH MM HS UM E Order No.
AUTOMATIONWORX User Manual Description of the Hardware and Software Functions of the Modular Managed Switch System With Firmware Version 4.50 11/2006 Designation: FL SWITCH MM HS UM E Revision: 09 Order No.: 2699011 This user manual is valid for: The Modular Managed Switch System with firmware Version 4.50 from the Factory Line product range.
FL SWITCH MM HS Please Observe the Following Notes In order to ensure the safe use of the product described, we recommend that you read this manual carefully. The following notes provide information on how to use this manual.
FL SWITCH MM HS General Terms and Conditions of Use for Technical Documentation Phoenix Contact GmbH & Co. KG reserves the right to alter, correct, and/or improve the technical documentation and the products described in the technical documentation at its own discretion and without giving prior notice, insofar as this is reasonable for the user. The same applies to any technical changes that serve the purpose of technical progress.
FL SWITCH MM HS Statement of Legal Authority This manual, including all illustrations contained herein, is copyright protected. Use of this manual by any third party is forbidden. Reproduction, translation, and public disclosure, as well as electronic and photographic archiving or alteration requires the express written consent of Phoenix Contact. Violators are liable for damages. Phoenix Contact reserves all rights in the case of patent award or listing of a registered design.
Table of Contents Table of Contents 1 2 3 Modular Managed Switch System ...........................................................................................1-1 1.1 Properties........................................................................................................... 1-1 1.1.1 System Components .......................................................................... 1-3 1.1.2 Firmware Versions and Their Functions ............................................. 1-5 1.1.
FL SWITCH MM HS 3.2.5 3.2.6 3.2.7 3.2.8 3.2.9 3.2.10 3.3 4 5 ii FL IF 2FX ST-D ................................................................................3-18 FL IF TX/POF 10/100 ... ................................................................... 3-19 FL IF TX/HCS 100 ... ........................................................................ 3-20 FL IF MEM 2TX-D ............................................................................3-22 FL IF 2PSE-F ......................................
Table of Contents 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 6 7 8 Enabling (R)STP on All Switches Involved ......................................... 5-2 Connection Failure - Example ..........................................................5-11 Mixed Operation of RSTP and STP .................................................. 5-12 Topology Detection of a Rapid Spanning Tree Network (RSTP) ..... 5-12 Configuration Notes for Rapid Spanning Tree ..................................5-15 Multicast Filtering..............
FL SWITCH MM HS 9 LLDP (Link Layer Discovery Protocol).....................................................................................9-1 9.1 Basics................................................................................................................. 9-1 9.2 Representation of the Topology in an Engineering Tool .................................... 9-4 10 DHCP Relay Agent................................................................................................................
Modular Managed Switch System 1 Modular Managed Switch System Unless stated otherwise, all information in this manual is valid for the FL SWITCH MM HS and FL SWITCH MM HS/M, as well as for the FL MXT and FL MXT/M. 1.1 Properties The Modular Managed Switch (Modular Managed Switch System - MMS) is an Ethernet switch, which is suitable for industrial use and consists of a head station, extension modules, and interface modules.
FL SWITCH MM HS Maximum availability Maximum network availability A device design that does not use a fan, the redundant power supply, and conformance with all relevant industrial standards in terms of EMC, climate, mechanical load, etc. ensure the highest possible level of availability. Redundancy can also be created with standards: the (Rapid) Spanning Tree Protocol ensures the safe operation of the entire network regardless of topology, even in the event of a cable interrupt.
Modular Managed Switch System Features and Fields of Application of the FL SWITCH MM HS – – – – – – – – – – – – – – – Increased network performance by filtering data traffic: - Local data traffic remains local. - The data volume in the network segments is reduced. Easy network expansion and network configuration. Coupling segments with different transmission speeds. Automatic detection of 10 Mbps or 100 Mbps data transmission rate with auto crossing.
FL SWITCH MM HS Extension module FL MXT An extension module provides another 8 ports, which can be individually equipped with interface modules. A maximum of 2 extension modules can be connected to the head station. The maximum system configuration therefore comprises 24 ports. It is not possible to operate the extension modules without the head station. FL MXT/M Interface modules FL IF ...
Modular Managed Switch System 1.1.2 Firmware Versions and Their Functions Firmware Version 1.03 provides the standard switch functions. In addition, firmware Version 1.11 supports the Spanning Tree redundancy mechanism. Firmware 2.03 offers the following additional functions: – Multicast filter mechanisms – IGMP snooping and querier function – Memory module support Firmware 2.
FL SWITCH MM HS – Extended LED diagnostics (identification of the switch in the PROFINET environment and detection of the "Missing IP parameter following restart" status) PoE traps (when the PoE status changes) Test traps to check communication Deletion of the MAC address table from WBM and SNMP – – – 1.1.
Modular Managed Switch System – – – – – – – – Diagnostic/status indicators Important information is displayed directly on the device. Each port has two LEDs. The left-hand LED always indicates the "LINK", while the right-hand LED display is set with the function switch. Function switch for LEDs The MODE function switch can be used to specify which information is displayed by the second port-specific LED. The three LEDs above the switch indicate the selected mode.
FL SWITCH MM HS 1.1.3.
Modular Managed Switch System 1.1.3.3 View of the Interface Modules (Example) G u id e b a r s P o s itiv e la tc h e s C o n n e c tio n fo r h e a d s ta tio n / e x te n s io n m o d u le L a b e lin g g r o o v e fo r Z a c k m a rk e r Z B F ...
FL SWITCH MM HS 1.1.4 2 1 4 m m Dimensions of the Modular Managed Switch System for Normal Operation 4 6 8 m m 3 4 1 m m ( 1 3 .4 2 5 in .) ( 8 .4 2 5 in .) ( 1 8 .4 2 5 in .) 1 2 7 m m ( 5 .0 0 0 in .) 1 2 7 m m ( 5 .0 0 0 in .) 6 8 7 4 0 0 0 7 9 5 m m 5 5 m m 4 0 m m ( 1 .5 7 5 in .) ( 3 .7 4 0 in .) ( 4 .4 8 8 in .) ( 2 .1 6 5 in .) 1 1 4 .
Modular Managed Switch System 1.1.5 Dimensions of the Modular Managed Switch System for GL-Certified Operation 468 50 25 341 127 214 127 NEF NEF 1- 3 1- 3 68740007 40 95 55 114,5 68740049 Figure 1-8 MMS housing dimensions in millimeters Housing Dimensions of the Converter Board With Interface Module ( 4 .3 3 0 in .) 9 0 m m ( 3 .5 4 3 in .) 1 1 0 .
FL SWITCH MM HS 1.1.6 1 0 0 F L S W IT C H M M H S O rd . N o .
Modular Managed Switch System Example: In Figure 1-11, the LED indicators have the following meaning (see also "Assignment of ports to slots" on page 1-12): A: The switch has been set to display the duplex mode; the mode LEDs now indicate that port 1 and port 3 are in full duplex mode and port 2 and port 4 are in half duplex mode.
FL SWITCH MM HS 1.2.2 Meaning of the 7-Segment Display If the MMS has established a PROFINET connection, a dot appears in the bottom-right corner of the display. During Error-Free Operation: Display Meaning bo Extracting/starting firmware (boot) 01 Sending BootP requests SC Saving parameterization data to the plug-in memory and the head station.
Modular Managed Switch System In the Event of an Error: Display Meaning Remedy 16 The device software (firmware) is faulty – Update the firmware via the serial interface. 17 Firmware transfer via TFTP or Xmodem failed (display changes from "03" to "17") – – – Check the physical connection. Establish a point-to-point connection. Make sure that the file (with the specified file name) exists and is in the correct directory. Check the IP address of the TFTP server. Activate the TFTP server.
FL SWITCH MM HS Display bF Meaning Remedy System bus error (Bus Fail) – – Make sure that the extension modules are plugged in correctly. Restart the switch. Po Power – Power over Ethernet monitoring has been activated on at least one port and an error has occurred. Check the physical connection at the PoE ports and the settings in WBM. HS Hardware support – At least one interface module is inserted in the MMS that is not fully supported by the MMS hardware version used.
Assembly and Installation 2 Assembly and Installation 2.1 Assembly and Removal of the Head Station Always switch off the supply voltage when assembling/removing the head station and extension modules. Mount the head station on a clean DIN rail according to DIN EN 50 022 (e.g., NS 35 ... from Phoenix Contact). To avoid contact resistance only use clean, corrosion-free DIN rails. Before mounting the modules, an end clamp (E/NS 35N, Order No.
FL SWITCH MM HS Removal: 1. 2. Remove all plug-in connections or interface modules. Pull down the positive latches using a suitable tool (e.g., screwdriver). Both positive latches remain snapped out. Then swivel the bottom of the module away from the DIN rail slightly (A). Next, lift the module upwards away from the DIN rail (B).
Assembly and Installation 2.2 Assembly and Removal of Extension Modules Always switch off the supply voltage when assembling/removing the extension modules. Assembly: 1. Place the module onto the DIN rail from above (A). The upper holding keyway must be hooked onto the top edge of the DIN rail. Push the module from the front towards the mounting surface (B). Check that the positive latches have snapped on properly. A B Figure 2-3 2.
FL SWITCH MM HS Removal: Switch off the supply voltage before removing the extension modules. 1. 2. 3. 4. 5. Remove all plug-in connections or interface modules. To release the plug-in connection for the system interface, insert a screwdriver in the notch provided and use it to push the modules apart. Push the right-hand extension module along the DIN rail to the right until the plug-in contact is completely free. Pull down the holding latches using a suitable tool (e.g., screwdriver).
Assembly and Installation 2.3 Assembly and Removal of Interface Modules Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. Ensure that the surface of the head station or extension module housing is clean. Assembly: 1. Insert the interface modules in the slots of the basic modules.
FL SWITCH MM HS Removal: 1. Remove the mounting screw. Figure 2-8 2. Removing the mounting screw on interface modules Press the positive latch (A) and pull out the module (B).
Assembly and Installation 2.4 Assembly and Removal of the FL M LABEL Labeling Field (Accessories) The FL M LABEL labeling field (Order No. 2891055) can be used to individually identify the ports of the MMS. The labeling field can be attached to the top of the head station or to the extension modules. FL M LABEL LNK MODE ACT 100 FD MODE FL SWITCH MM HS Ord. No.
FL SWITCH MM HS 2.4.2 – – Removal Pull the expansion plug cap upwards until the entire plug is removed. Remove the labeling field. 2.4.3 Dimensions of the Labeling Field 29 mm / 1.142 in. 15 mm / 0.591 in. Figure 2-12 2-8 PHOENIX CONTACT 125 mm / 4.921 in.
Assembly and Installation 2.5 Installing the Modular Managed Switch System 2.5.1 24 V DC Connecting the Supply Voltage to the FL SWITCH MM HS Head Station The system is operated using a 24 V DC voltage, which is applied at the head station. If required, the voltage can also be supplied redundantly (see Figure 2-14). If redundant power supply monitoring is active (default setting), an error is indicated if only one voltage is applied.
FL SWITCH MM HS 2.5.2 Connecting the Supply Voltage to the FL SWITCH MM HS/M for GL-Certified Operation For GL-certified operation, an NEF 1- 3 filter (for Environmental Category EMC2) or NEF 1- 6 (for EMC1) must be used and the components must be installed in a metal control cabinet. 24 V DC The system is operated using a 24 V DC voltage, which is applied at the head station. If required, the voltage can also be supplied redundantly (see Figure 2-16).
Assembly and Installation Redundant 24 V DC supply - 2 4 V D C - + + A C T 1 0 0 F D M O D E F L S W IT C H M M H S O rd . N o . 2 8 3 2 3 2 6 R e s e t N E F N E F 1 - 3 1 - 3 Figure 2-16 2.5.3 U S 1 M A C A d d re s s 0 0 A 0 4 5 1 B D D U S 2 F a il U S 1 G N D U S 2 G N D R 1 R 2 V .2 4 Supplying the system using two voltage sources Alarm Contact The switch has a floating alarm contact. An error is indicated when the contact is opened.
FL SWITCH MM HS 2.5.4 V.24 (RS-232) Interface for External Management The 6-pos. Mini-DIN female connector provides a serial interface to connect a local management station. It can be used to connect a VT100 terminal or a PC with corresponding terminal emulation to the management interface (for an appropriate cable, please refer to page 11-6). Set the following transmission parameters: Bits per second Data bits Parity Stop bits Flow control V .
Startup and Functions 3 Startup and Functions 3.1 Basic Settings The basic Ethernet functions do not have to be configured and are available when the supply voltage is switched on. 3.1.1 Default Upon Delivery/Default Settings By default upon delivery or after the system is reset to the default settings, the following functions and properties are available: – The password is "private". – All IP parameters are deleted. The switch has no valid IP parameters: IP address: 0.0.0.0 Subnet mask: 0.0.0.
FL SWITCH MM HS 3.1.2 Assigning IP Parameters When the supply voltage is switched on or the reset button is pressed, the switch sends requests (BootP requests) to assign IP parameters. The button must be held down for a few seconds to trigger a reset. The "BootP" function can be deactivated via the management. By default upon delivery, the "BootP" function is activated. The assignment of valid IP parameters is vital to the management function of the switch.
Startup and Functions 3.1.2.2 Assigning IP Addresses The IP address is a 32-bit address, which consists of a network part and a user part. The network part consists of the network class and the network address. There are currently five defined network classes; Classes A, B, and C are used in modern applications, while Classes D and E are hardly ever used. It is therefore usually sufficient if a network device only "recognizes" Classes A, B, and C.
FL SWITCH MM HS Possible Address Combinations C la s s A 0 .0 .0 .0 - 1 2 7 .2 5 5 .2 5 5 .2 5 5 0 C la s s B 1 2 8 .0 .0 .0 - 1 9 1 .2 5 5 .2 5 5 .2 5 5 2 4 b its N e tw o r k ID H o s t ID 0 1 C la s s C 1 9 2 .0 .0 .0 - 2 2 3 .2 5 5 .2 5 5 .2 5 5 7 b its 1 1 1 4 b its 1 6 b its N e tw o r k ID H o s t ID 0 2 1 b its 8 b its N e tw o r k ID H o s t ID 2 8 b its C la s s D 2 2 4 .0 .0 .0 - 2 3 9 .2 5 5 .2 5 5 .
Startup and Functions 0.x.x.x Addresses Value 0 is the ID of the specific network. If the IP address starts with a zero, the receiver is in the same network. Example: 0.2.1.1 refers to device 2.1.1 in this network. The zero previously signified the broadcast address. If older devices are used, unauthorized broadcast and complete overload of the entire network (broadcast storm) may occur when using the IP address 0.x.x.x. 3.1.2.
FL SWITCH MM HS IP address display for device 2: H e x a d e c im a l n o ta tio n : 5 9 .E A .5 5 .3 2 B in a r y n o ta tio n : 0 1 0 1 1 0 0 1 .1 1 1 0 1 0 1 0 .0 1 0 1 0 1 0 1 .0 0 1 1 0 0 1 0 The individual subnet mask and the IP address for device 2 are then ANDed bit-by-bit by the software to determine whether device 2 is located in the local subnetwork. ANDing the subnet mask and IP address for device 2: 1 1 1 1 1 1 1 1 .1 1 1 1 1 1 1 1 .1 1 0 0 0 0 0 0 .
Startup and Functions 3.1.3 Flowchart After a Restart 3.1.3.
FL SWITCH MM HS 3.1.3.2 Assigning IP Parameters Startup Operating as a PROFINET device with DCP? Yes No Yes IP parameters received from BootP server No Three requests remain unanswered? No Yes Yes Is there a valid local IP address? Yes Assignment of static IP parameters via V.
Startup and Functions 3.2 Starting Up Interface Modules For GL-certified operation, only the interface modules listed in the table below are permitted. Table 3-1 Interface modules with GL approval Designation Order No. FL IF MEM 2TX-D 2832483 FL IF 2FX SC-D 2832425 FL IF 2FX SM SC-D 2832205 FL IF 2TX VS-RJ-F 2832344 FL IF 2TX VS-RJ-D 2832357 3.2.1 FL IF 2TX VS-RJ ... Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage.
FL SWITCH MM HS – Line monitoring The switch uses link test pulses according to standard IEEE 802.3 at regular intervals to monitor the connected TP/TX cable segments for short circuits and interrupts. Ports that are not being used are considered cable interrupts. In addition, a TP/TX path to a deactivated termination device is also considered a cable interrupt, as the connected device cannot send a link test pulse because it is switched off. 3.2.1.
Startup and Functions 3.2.1.4 Figure 3-7 3.2.2 Assignment of the RJ45 Female Connector (TP/TX) n .c . P in 8 n .c . P in 7 T D - P in 6 n .c . P in 5 n .c . P in 4 T D + P in 3 R D - P in 2 R D + P in 1 R J 4 5 Assignment of the RJ45 female connector FL IF 2POF 10/100 ... Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. 3.2.2.
FL SWITCH MM HS 3.2.2.3 Connecting the F-SMA Connectors To prevent dirt from entering the connectors, do not remove the dust protection caps until just before connecting the connectors. The same applies for the protective caps on the connectors. F-SMA is a standardized fiber optic connection. We recommend the use of easy to operate F-SMA connectors with quick mounting connection from Phoenix Contact. The connectors are secured on the interface module by manually tightening the screw collar.
Startup and Functions 3.2.2.5 Reducing the Transmission Power In polymer fiber optic paths (POF) < 20 m, the transmission power must be reduced. Slide the switch on the top of the interface module to the "OFF" position. Note the assignment of port numbers. The switch position can be read in WBM or via SNMP.
FL SWITCH MM HS 3.2.3 FL IF 2HCS 100 ... Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. 3.2.3.1 Default Upon Delivery When the interface modules are inserted, the link monitoring function for the HCS ports is not activated. An HCS port is set to 100 Mbps - full duplex. If an HCS port is removed, the port mode is set to auto negotiation. 3.2.3.
Startup and Functions 3.2.3.4 HCS Connection Between Devices When connecting two HCS interface modules, note the signal direction of the fiber optics. The fiber connection is always from the transmitter to the receiver. R X R X R X 1 0 0 m (3 2 8 .0 8 ft.), m a x im u m H C S T X T X T X R X R X R X T X T X T X 1 0 0 m (3 2 8 .0 8 ft.
FL SWITCH MM HS 3.2.4 FL IF 2FX SC .../FL IF 2FX SM SC ... Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. If the FL IF 2FX (SM) SC... interface is removed and another interface type is inserted in its place, the ports are set to auto negotiation. 3.2.4.
Startup and Functions 3.2.4.3 Connecting the SC-D Connectors To prevent dirt from entering the connectors, do not remove the dust protection caps until just before connecting the connectors. The same applies for the protective caps on the connectors. 6 8 7 4 0 0 2 0 Figure 3-13 3.2.4.4 Connecting the SC-D connectors Fiber Optic Connection Between Devices When connecting two fiber optic interface modules, note the signal direction of the fiber optics.
FL SWITCH MM HS 3.2.5 FL IF 2FX ST-D Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. If the FL IF 2FX ST-D interface is removed and another interface type is inserted in its place, the ports are set to auto negotiation. 3.2.5.
Startup and Functions 3.2.5.4 Glass Fiber Connection Between Devices When connecting two glass fiber interface modules, note the signal direction of the fiber optics. The fiber connection is always from the transmitter to the receiver. The maximum length of the glass fiber cables depends on the fiber type used. 3.2.6 FL IF TX/POF 10/100 ... Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage.
FL SWITCH MM HS Auto crossing is only available if auto negotiation is activated. – – Auto polarity The polarity is changed automatically by the switch if a pair of twisted pair receive cables (RD+ and RD-) are connected incorrectly. Line monitoring The switch uses link test pulses according to standard IEEE 802.3 at regular intervals to monitor the connected TP/TX cable segments for short circuits and interrupts. Ports that are not being used are considered cable interrupts.
Startup and Functions 3.2.7.3 – – Functions of the Twisted Pair Interface Auto negotiation Auto negotiation is a method whereby the switch automatically detects the operating parameters for the connected network and sets the corresponding parameters (10 Mbps/100 Mbps data transmission rate and half/full duplex transmission mode) for its RJ45 ports. Automatic port setting eliminates the need for manual intervention by the user.
FL SWITCH MM HS 3.2.8 FL IF MEM 2TX-D Make sure that only one memory module is inserted. If more than one module is inserted, the switch indicates error code "87" on the display. Remove all but one of the memory modules and restart the switch. The interface module has two twisted pair interfaces in addition to the parameterization memory. To distinguish it from other 2TX interface modules, it is supplied in charcoal-gray housing.
Startup and Functions – When starting the MMS, the data is read from a plugged-in memory module (display indicates "OP") and used as the active configuration. The data in the Flash memory is overwritten by the data from the memory module. Please note that the password stored on the memory module is also transmitted to the MMS. Make sure that you know the password for the configuration on the memory module. 3.2.8.
FL SWITCH MM HS 3.2.9 FL IF 2PSE-F The PoE interface module is supported by firmware Version 4.0 or later. Firmware Versions < 4.0 treat the module as a standard RJ45 interface module. The module can operate in PoE mode without management and without support from the firmware and hardware (system bus) (see note below). No configuration options and no diagnostic data are available, connected termination devices are nevertheless supplied with power.
Startup and Functions - No PoE interface module detected at this port - No hardware support due to the system bus - Detected class of a connected termination device (Class 0 to Class 4) - Output voltage and output current Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. 3.2.9.
FL SWITCH MM HS 3.2.9.4 Connecting the 48 V PoE Supply Voltage Connecting the PoE Supply 2 1 The connector for the PoE supply is located on the bottom of the interface module. Please observe the keying on the connector when inserting it. The module has a green LED for each port, which indicates the PoE mode. The LED is active if the PoE supply and a PD (powered device) are connected. The LED flashes if the module is supplied with less than 48 V.
Startup and Functions Connecting the PoE Supply Connect the 48 V PoE supply to terminals 1 (+) and 2 (-). The terminals are bridged within the module. The bridges are located between terminals 1 and 3, and between terminals 2 and 4. The bridges can be used to supply voltage to a maximum of three additional PoE interface modules. The supply voltage to additional PoE interface modules must be supplied by power supply units.
FL SWITCH MM HS 3.2.10 FL IF 2POF SCRJ-D Hot plugging When inserting and removing interface modules, you do not have to switch off the supply voltage. The interface modules are detected automatically and logged to the network management. If the FL IF 2POF SCRJ ... interface is removed and another interface type is inserted in its place, the ports are set to auto negotiation. 3.2.10.
Startup and Functions 3.2.10.3 Connecting the SCRJ Connectors To prevent dirt from entering the connectors, do not remove the dust protection caps until just before connecting the connectors. The same applies for the protective caps on the connectors. 6 8 7 4 0 0 2 0 Figure 3-18 3.2.10.4 Connecting the SCRJ connectors Fiber Optic Connection Between Devices When connecting two fiber optic interface modules, note the signal direction of the fiber optics.
FL SWITCH MM HS 3.2.10.5 SCRJ Modules in WBM Very detailed information about the SCRJ modules is available in WBM (see "Ports/POF Port Table" Menu on page 4-29), e.g., the port system reserve, alarms or port states are displayed.
Startup and Functions 3.3 Frame Switching The FL SWITCH MM HS operates in store-and-forward mode. When receiving a data packet, the switch analyzes the source and destination addresses. The switch stores up to 8000 MAC addresses with an adjustable aging time of 10 to 825 seconds in its address table. 3.3.1 Store-and-Forward All data telegrams that are received by the switch are saved and their validity is checked.
FL SWITCH MM HS The aging time is set using the "dot1dTpAgingTime" MIB object (OID 1.3.6.1.2.1.17.4.2). The available setting range is 10 - 825 seconds. For static configuration, an aging time of 300 seconds is recommended. 3.3.4 Prioritization The switch supports two priority queues for adjusting the internal packet processing sequence (traffic classes according to IEEE 802.1D).
Startup and Functions The port prioritizing method is suitable for termination devices that do not support tagging and thus cannot generate priorities. "High" port prioritization sets the internal priority of the packets received at this port to priority level 7. In the switch, these packets will be processed with priority information 7 within the tag (preferred handling and forwarding method only within the MMS, however, when forwarding to the receiver, the packets are in the original state).
FL SWITCH MM HS 3-34 PHOENIX CONTACT 6874_en_09
Configuration and Diagnostics 4 Configuration and Diagnostics The modular managed switch system offers several user interfaces for accessing configuration and diagnostic data. The preferred interfaces are the web interface and SNMP interface. These two interfaces can be used to make all the necessary settings and request all information. Access via Telnet/V.24 (RS-232) interface only enables access to basic information. However, the V.
FL SWITCH MM HS Figure 4-1 Messages from the MMS in the Factory Manager Right-click on one of the MMS messages and select the "Add new device..." menu item. Under "Description", select an icon and enter a device name. Specify the desired IP parameters under "TCP/IP" (see also "Assigning IP Parameters" on page 3-2).
Configuration and Diagnostics Make sure that the assignment of IP parameters via BootP is also activated. Once you have clicked on "Add", the device is added to the project and is indicated as unavailable. You must now restart or reset the MMS. Following a restart, the MMS resends the BootP requests and receives the corresponding BootP reply from the Factory Manager. Once the boot process has been completed the MMS is indicated as available.
FL SWITCH MM HS If you modify the IP address and/or the other IP parameters using the Factory Manager, once you click "OK" you will no longer have access via the Factory Manager. Restarting the MMS activates the modified parameters and restores access. To activate the new addresses following a restart, BootP must be activated in the MMS (on the "IP Configuration" page in WBM).
Configuration and Diagnostics Diagnostics Figure 4-5 "Diagnostics" menu Information about the device status and redundancy is displayed here. All the messages for this device are displayed under Messages.
FL SWITCH MM HS Comprehensive information, e.g., from interface types and states, through transmission data to port levels, is displayed here. All information is automatically created and updated. Trap Targets Figure 4-7 "Trap Targets" menu Trap targets are displayed or set here, and the "send traps" function can be activated or deactivated. Clicking on "Set Default Values" automatically activates the IP address of the computer on which the Factory Manger is installed as the trap target.
Configuration and Diagnostics Firmware Figure 4-8 "Firmware" menu Here you can view all information about the current device software (firmware). You can also update the software/firmware using the Factory Manager. Firmware update When you click on "Update", the following window appears, which contains information about the firmware used. During a firmware update, the current status is shown on the MMS display: 03 - Downloading firmware via the network. 04 - Saving the firmware in the MMS Flash memory.
FL SWITCH MM HS It is not ensured that all existing configuration data will be retained after a firmware update/downgrade. Therefore, please check the configuration settings or return the device to the settings default upon delivery. A voltage failure during a firmware update results in the destruction of the firmware on the MMS. An update via XMODEM is required, see "Starting With Faulty Software (Firmware)" on page 4-120.
Configuration and Diagnostics Options Figure 4-10 "Options" menu Two functions are available for selection: – Activate/deactivate the web server. – Configure the port mirroring function. If ports are set with the same value for the source and destination, port mirroring will be disabled. The source port is set to "0". Enter the destination port in the relevant multicast group in order to enable multicast packets to be received at the set destination port.
FL SWITCH MM HS Extended Options Figure 4-11 "Extended Options" menu You can jump straight to the web interface from here via a selection menu. The relevant function is described in "Web-Based Management (WBM)" on page 4-11 and onwards. Configuration Figure 4-12 "Configuration" menu Various options are provided here for saving or loading the configuration.
Configuration and Diagnostics 4.2 4.2.1 Online diagnostics Web-Based Management (WBM) General Function The user-friendly web-based management interface can be used to manage the switch from anywhere in the network using a standard browser. Comprehensive configuration and diagnostic functions are clearly displayed on a graphic user interface. Every user with a network connection to the device has read access to that device via a browser.
FL SWITCH MM HS 4.2.2.2 Password Concept After having entered the valid password, no further entry of the password is necessary for a period of 300 s (default). After this period of time has elapsed or after clicking on "Logout", the password must be re-entered. The period of time can be set using the "flWorkFWCtrlLoginExpire" SNMP object within a range of 30 s to 3600 s (default 300 s). The concept is valid for the first ten users logged on at the same time.
Configuration and Diagnostics 4.2.3.2 Figure 4-14 Device Information "Device Information" web page "General" Menu This page contains a range of static information about the device and the manufacturer. "Technical Data" Menu This page lists the main technical data. "Hardware Installation" Menu This page contains a connection diagram for connecting the redundant power supply and the alarm contact.
FL SWITCH MM HS 4.2.3.3 General Configuration "IP Configuration" Menu This page displays the set IP parameters, management VLAN ID, and addressing mechanism. The management VLAN ID specifies in which VLAN the switch can be accessed if it is operating in "Tagging" VLAN mode. To change the IP parameters via WBM, "Static" assignment must be selected.
Configuration and Diagnostics – Dynamic Host Configuration Protocol (DHCP) Once DHCP has been enabled, the switch attempts to apply network parameters from a DHCP server. The setting, regardless of whether DHCP is enabled or not, is saved permanently. Once DHCP has been enabled, the display contains "01" and waits for IP parameters from a DHCP server. As long as no IP parameters have been assigned by a DHCP server, the switch can still be accessed via the previously set IP parameters.
FL SWITCH MM HS "SNMP Trap Configuration" Menu SNMP Agent The "send traps" function can be globally enabled/disabled here. Figure 4-17 Trap Destination 4-16 PHOENIX CONTACT "SNMP Configuration" web page This part of the table is used to view or modify the IP addresses of the two trap receivers.
Configuration and Diagnostics Trap Configuration SNMP Trap Connection Test The "send traps" function can be disabled individually here. Once the "send traps" function has been activated and the trap manager has been defined using the IP addresses, test traps can now be sent using "Execute" to test the communication path from the switch to the trap receiver. "Software Update" Menu This page is used to view or modify the parameters for a software update and to trigger the update.
FL SWITCH MM HS "Change Password" Menu This option can be used to specify the current password and then enter a new, unique password. By default upon delivery, the password is "private" (please note that it is casesensitive). For security reasons, the input fields do not display your password, but instead "*******" is displayed. Figure 4-19 "Change Password" web page The password must be between four and twelve characters long.
Configuration and Diagnostics Figure 4-20 "User Interfaces" web page "Access Control" Menu Here you can specify the IP addresses from which access to the web interface is permitted. To do so, enter the IP address in dotted notation and select whether read-only or read/write access is to be assigned. As an option, another name can be assigned under "Description". Access to WBM can be configured for a maximum of ten IP addresses.
FL SWITCH MM HS Figure 4-21 "Access Control for Web Interface" web page Due to configuration errors, you may accidentally block your own access. In this case, you can disable access control via the serial interface using the "Access Control for Web" button. "Operating Mode" Web Page Operating as a PROFINET device In this menu, select whether the switch is to operate as a PROFINET device. For additional information on operation as a PROFINET device, see Section 8 "Operating as a PROFINET Device".
Configuration and Diagnostics "Configuration Management/General" Menu This table is used to view all parameters that are required to save the active configuration or load a new configuration, and to modify them (by entering a valid password). It can also be used to restart the system with the relevant configuration.
FL SWITCH MM HS Load the last stored configuration This option can be used to reactivate the last configuration saved in the memory module or on the device. All modifications made to the configuration since it was last saved are lost. Figure 4-26 "Load the last stored configuration" web page "Configuration Management/File Transfer" Menu Configuration file transfer This option can be used to save your device configuration on a PC or to operate the switch using a saved configuration.
Configuration and Diagnostics Device Replacement Configuration using a configuration file is used when replacing devices. To duplicate devices using a configuration file, observe the following: – Create a point-to-point connection between a MMS and the management station. – Load the configuration file on the MMS. – Reset the MMS. – Adjust the IP parameters. – Save the configuration ("Save current configuration" function).
FL SWITCH MM HS Figure 4-30 4.2.3.4 "Clear Memory Module" web page Switch Station "Services" Menu Reboot To trigger a reboot via the web interface, enter a valid password. Save the configuration beforehand, so that configuration modifications are retained or can be activated via a restart. Port security status Here you can globally activate/deactivate the port security function. The settings for the individual ports can be made on the "Port/Port Security" web page.
Configuration and Diagnostics "DHCP Relay Agent" Menu In this menu, the DHCP relay agent can be activated/deactivated according to the port, the corresponding address of the DHCP server can be entered, and the type of remote ID can be configured. For additional information on the function of the DHCP relay agent, please refer to "DHCP Relay Agent" on page 10-1. "Ports/Port Table" Menu Overview of all available ports. Clicking on the relevant port number opens a port-specific page ("Port Configuration").
FL SWITCH MM HS Figure 4-33 "Port Configuration Table" web page "Ports/Port Configuration" Menu Offers individual configuration options for each port. Even if the port is switched off, the Link LED for the port remains active.
Configuration and Diagnostics .
FL SWITCH MM HS "Ports/Port Statistics" Menu This menu provides detailed statistical information about the volume of data for each individual port. On this page, additional counter states can be set to zero for all ports. .
Configuration and Diagnostics "Ports/POF Port Table" Menu The information available for the POF-SCRJ interface modules is displayed on this page.
FL SWITCH MM HS Figure 4-37 4-30 PHOENIX CONTACT "Diagnostics" web page 6874_en_09
Configuration and Diagnostics "Ports/Port Mirroring" Menu Activation/deactivation and setting of port mirroring. Port mirroring is used to passively read data that is being transmitted via a selected port. To do this a measuring instrument (PC) is connected to the destination port, which records the data, yet must not itself be activated. Figure 4-38 "Port Mirroring" web page If ports are set with the same value, port mirroring will be disabled. The source port is set to "0".
FL SWITCH MM HS – Block packets with automatic reenabling Having received unauthorized packets, the port is blocked for all packets. A trap is sent, which indicates the unauthorized access attempt. After the aging time has elapsed, the port is reenabled automatically. The "Port Security" function is only suitable for ports to which termination devices are connected. It is not recommended to use this function for backbone or uplink ports, especially if RSTP is activated.
Configuration and Diagnostics The "Unlock" button can be used to disable the port block. "Last Source MAC Address" indicates the last MAC address that accessed the port. If the port is blocked, the MAC address responsible for the block is indicated here. "Ports/Power over Ethernet Port Table" Menu This menu displays the available PoE status information for each port.
FL SWITCH MM HS "Ports/Port Power over Ethernet Configuration" Menu This menu can be used to set the port-specific configuration settings for Power over Ethernet. The PoE interface module is supported by firmware Version 4.0 or later. Firmware Versions < 4.0 treat the module as a standard RJ45 interface module. The module can operate in PoE mode without management and without support from the firmware and hardware (system bus). No configuration options or diagnostic data are available.
Configuration and Diagnostics Figure 4-41 "Port Power over Ethernet Configuration" web page "Diagnostics/Display" Menu Current display of the 7-segment display, and the states of the alarm contact and redundant power supply.
FL SWITCH MM HS Click on "Online Diagnostics" to display the current view of the diagnostic display in a small browser window. The display is renewed automatically after two seconds. "Diagnostics/Alarm Contact" Menu Here, you can set whether and for which events the alarm contact can be used. Figure 4-43 "Alarm Contact" web page Click on the "Switch Station / Ports / Port Cfg Table" link (on "Alarm Contact" page in WBM) to access the port configuration page.
Configuration and Diagnostics "Diagnostics/Utilization" Menu Here, the network capacity of each individual port is displayed as a bargraph. The display is automatically updated according to the refresh interval. Figure 4-44 "Utilization" web page Please note that the % scale is spread according to the capacity utilization. "Diagnostics/Event Table" Menu Here, you will find a list of the latest important events.
FL SWITCH MM HS The "Clear" button can be used to delete entries in the event table. The following events are listed in the event table: – Event Table cleared. – Password has been changed. – Password has not been changed successfully. – Configuration has been saved. – The configuration has been modified the first time after the last storing. – Memory Module recognized. – Memory Module removed. – Memory Module cleared. – Configuration File Transfer successfully executed.
Configuration and Diagnostics – – – – – – – The Profinet connection was terminated. Diagnosable POF module: OK on port xy. Diagnosable POF module: Warning level reached on port xy. Diagnosable POF module: Critical status on port xy. Configuration difference detected. Configuration difference detected at slot. Configuration difference removed. "Diagnostics/MAC Address Table" Menu Here, you will find a list of which MAC address has been detected at which switch port and its VLAN ID.
FL SWITCH MM HS 4.3 4.3.1 Simple Network Management Protocol (SNMP) General Function SNMP is a manufacturer-independent standard for Ethernet management. It defines commands for reading and writing information and defines formats for error and status messages. SNMP is also a structured model, which comprises agents and their relevant MIB (Management Information Base) and a manager. The manager is a software tool, which is executed on a network management station.
Configuration and Diagnostics Another benefit for the user is the option of sending traps using the Simple Network Management Protocol. Management Information Base (MIB) Database, which contains all the data (objects and variables) required for network management. Agent An agent is a software tool, which collects data from the network device on which it is installed, and transmits this data on request.
FL SWITCH MM HS trapPowerSupply OID Description 1.3.6.1.4.1.4346.11.11.3.0.4 Sent each time the redundant voltage supply fails. trapSecurityPort OID Description 1.3.6.1.4.1.4346.11.11.3.0.5 Sent each time a disabled MAC address accesses a port. trapRstpRingFailure OID Description 1.3.6.1.4.1.4346.11.11.3.0.6 Sent in the event of a link interrupt in the redundant RSTP ring. trapPofScrjPort OID Description 1.3.6.1.4.1.4346.11.11.3.0.7 Sent each time the status of the POF-SCRJ port changes.
Configuration and Diagnostics 4.3.2 Diagram of SNMP Management Management station SNMP management Trap receiver SNMP traps Monitoring Information Management objects organized in MIBs MIB Agent Agent US Agent UM US FL IL 24 BK-B Ord.-No.: 2833000 UM 1 1 PP 2 FAIL 1 1 2 2 XMT 100 1 2 2 3 3 4 4 10/100 LINK 1 2 1 2 2 3 3 4 4 RCV 3 3 4 4 10/100 MIB 100 XMT RCV LINK 1 FAIL 1 XMT RCV UM FL IL 24 BK-B Ord.-No.
FL SWITCH MM HS 4.3.2.1 Tree Structure of the MIB 1 iso 0 std 3 org 8802 iso8802 6 dod 1 ieee802dot1 1 internet 1 ieee802dot1mibs 2 mgmt 4 private 6 snmpV2 1 mib-2 1 enterprises 3 snmpModules 4346 phoenixContact 1 snmpMIB 2 lldpMIB 1 system 5 security 2 interfaces 3 address translation 4 ip 5 icmp 6 tcp 7 udp 8 egp 10 transmission 11 snmp 16 rmon 17 dot1dBridge 30 ianaifType 31 ifMib 6146B029 Figure 4-48 Tree structure of the MIB Not all devices support all object classes.
Configuration and Diagnostics 4.3.3 RFC1213 MIB - MIB II 4.3.3.1 System Group (1.3.6.1.2.1.1) The system group has mandatory characters for all systems. It contains system-specific objects. If an agent does not have a value for a variable, the response is a string with length 0. (1) system – (1) sysDescr – (2) sysObjectID – (3) sysUpTime – (4) sysContact – (5) sysName – (6) sysLocation – (7) sysServices – (8) sysORLastChange – (9) sysORTable sysDescr OID 1.3.6.1.2.1.1.1.
FL SWITCH MM HS sysContact OID 1.3.6.1.2.1.1.4.0 Syntax Octet string (size: 0 - 255) Access Read and write Description The textual identification of the contact person for these managed nodes and information on how this person can be contacted. sysName OID 1.3.6.1.2.1.1.5.0 Syntax Octet string (size: 0 - 255) Access Read and write Description A name for this node assigned by the administrator. According to the agreement, this is the fully qualifying name in the domain. sysLocation OID 1.3.
Configuration and Diagnostics sysORTable OID 1.3.6.1.2.1.1.9 Syntax TimeTicks Access Read Description This table contains objects: sysORIndex, sysORID, sysORDescr, and sysORUpTime. 4.3.3.2 Interface Group (1.3.6.1.2.1.2) The interface group contains information about device interfaces.
FL SWITCH MM HS 4.3.3.4 Internet Protocol Group (1.3.6.1.2.1.4) The Internet protocol group has mandatory characters for all systems. It contains information concerning IP switching.
Configuration and Diagnostics -- (1) ipNetToMediaIfIndex -- (2) ipNetToMediaPhysAddress -- (3) ipNetToMediaNetAddress -- (4) ipNetToMediaType -- (23) ipRoutingDiscards 4.3.3.5 ICMP Group (1.3.6.1.2.1.5) The Internet Control Message Protocol group has mandatory characters for all systems. It contains information about troubleshooting and control in Internet data traffic.
FL SWITCH MM HS 4.3.3.6 Transfer Control Protocol Group (1.3.6.1.2.1.6) The Transfer Control Protocol group has mandatory characters for all systems with implemented TCP. Instances of objects, which provide information about a specific TCP connection, are valid as long as the connection is established.
Configuration and Diagnostics 4.3.3.8 egp Group (1.3.6.1.2.1.
FL SWITCH MM HS -- (17) snmpInSetRequests -- (18) snmpInGetResponses -- (19) snmpInTraps -- (20) snmpOutTooBigs -- (21) snmpOutNoSuchNames -- (22) snmpOutBadValues -- (24) snmpOutGenErrs -- (25) snmpOutGetRequests -- (26) snmpOutGetNexts -- (27) snmpOutSetRequests -- (28) snmpOutGetResponses -- (29) snmpOutTraps -- (30) snmpEnableAuthenTraps -- (31) snmpSilentDrops -- (32) snmpProxyDrops 4.3.4 RMON MIB (1.3.6.1.2.1.
Configuration and Diagnostics 4.3.4.1 statistics (1.3.6.1.2.1.16.1) This MIB group contains information about, e.g., the number of unicast, multicast or broadcast telegrams, telegram rate and distribution or the number of faulty telegrams classed according to error type. The statistics group contains information about the network load and quality.
FL SWITCH MM HS -- (6) etherHistoryPkts -- (7) etherHistoryBroadcastPkts -- (8) etherHistoryMulticastPkts -- (9) etherHistoryCRCAlignErrors -- (10) etherHistoryUndersizePkts -- (11) etherHistoryOversizePkts -- (12) etherHistoryFragments -- (13) etherHistoryJabbers -- (14) etherHistoryCollisions -- (15) etherHistoryUtilization 4.3.4.3 alarm (1.3.6.1.2.1.16.3) The alarm group requests statistical values and compares them with the defined limit values.
Configuration and Diagnostics -- (9) hostOutBroadcastPkts -- (10) hostOutMulticastPkts -- (3) hostTimeTable -- (1) hostTimeEntry -- (1) hostTimeAddress -- (2) hostTimeCreationOrder -- (3) hostTimeIndex -- (4) hostTimeInPkts -- (5) hostTimeOutPkts -- (6) hostTimeInOctets -- (7) hostTimeOutOctets -- (8) hostTimeOutErrors -- (9) hostTimeOutBroadcastPkts -- (10) hostTimeOutMulticastPkts 4.3.4.5 hostTopN (1.3.6.1.2.1.16.
FL SWITCH MM HS -- (3) matrixSDIndex -- (4) matrixSDPkts -- (5) matrixSDOctets -- (6) matrixSDErrors -- (3) matrixDSTable -- (1) matrixDSEntry -- (1) matrixDSSourceAddress -- (2) matrixDSDestAddress -- (3) matrixDSIndex -- (4) matrixDSPkts -- (5) matrixDSOctets -- (6) matrixDSErrors 4.3.4.7 filter (1.3.6.1.2.1.16.
Configuration and Diagnostics 4.3.4.8 capture (1.3.6.1.2.1.16.
FL SWITCH MM HS 4.3.5 Bridge MIB (1.3.6.1.2.1.17) 4.3.5.1 dot1dBase (1.3.6.1.2.1.17.1) The dot1dBase group contains bridge-specific information. (1) dot1dBaseBridgeAddress (2) dot1dBaseNumPorts (3) dot1dBasePortType (4) dot1dBasePortTable -- dot1dBasePortEntry -- (1) dot1dBasePort -- (2) dot1dBasePortIfIndex -- (3) dot1dBasePortPortCircuit -- (4) dot1dBasePortDelayExceededDiscards -- (5) dot1dBasePortMtuExceededDiscards 4.3.5.2 dot1dStp (1.3.6.1.2.1.17.
Configuration and Diagnostics -- (1) dot1dStpExtPortEntry -- (1) dot1dStpPortProtocolMigration -- (2) dot1dStpPortAdminEdgePort -- (3) dot1dStpPortOperEdgePort -- (4) dot1dStpPortAdminPointToPoint -- (5) dot1dStpPortOperPointToPoint -- (6) dot1dStpPortAdminPathCost 4.3.5.3 dot1dTp (1.3.6.1.2.1.17.4) The dot1dTp group contains bridge-specific information.
FL SWITCH MM HS 4.3.6 pBridgeMIB (1.3.6.1.2.1.17.6) 4.3.6.1 pBridgeMIBObjects (1.3.6.1.2.1.17.6.
Configuration and Diagnostics -- (8) pBridgePortGarpGroup -- (9) pBridgePortGmrpGroup -- (10) pBridgeHCPortGroup -- (11) pBridgePortOverflowGroup -- (2) pBridgeCompliances -- (1) pBridgeCompliance 4.3.7 qBridgeMIB (1.3.6.1.2.1.17.7) 4.3.7.1 qBridgeMIBObjects (1.3.6.1.2.1.17.7.
FL SWITCH MM HS -- (2) dot1qStaticMulticastTable -- (1) dot1qStaticMulticastEntry -- (1) dot1qStaticMulticastAddress -- (2) dot1qStaticMulticastReceivePort -- (3) dot1qStaticMulticastStaticEgressPorts -- (4) dot1qStaticMulticastForbiddenEgressPorts -- (5) dot1qStaticMulticastStatus -- (4) dot1qVLAN -- (1) dot1qVLANNumDeletes -- (2) dot1qVLANCurrentTable -- (1) dot1qVLANCurrentEntry -- (1) dot1qVLANTimeMark -- (2) dot1qVLANIndex -- (3) dot1qVLANFdbId -- (4) dot1qVLANCurrentEgressPorts -- (5) dot1qVLANCurrent
Configuration and Diagnostics -- (2) dot1qConstraintSet -- (3) dot1qConstraintType -- (4) dot1qConstraintStatus -- (9) dot1qConstraintSetDefault -- (10) dot1qConstraintTypeDefault 4.3.7.2 qBridgeConformance (1.3.6.1.2.1.17.7.
FL SWITCH MM HS 4.3.8 rstp MIB (1.3.6.1.2.1.17.11) 4.3.8.1 rstp Conformance (1.3.6.1.2.1.17.11.1) rstp Groups (1.3.6.1.2.1.17.11.1.1) -- (1) rstpBridgeGroups -- (2) rstpDefaultPathCostGroup -- (3) rstpPortGroup rstp Compliance Groups (1.3.6.1.2.1.17.11.1.2) -- (1) rstpCompliance 4.3.9 IANAifType MIB (1.3.6.1.2.1.30) The IANAifType MIB defines the "ifTable" in MIB II. See "Interface Group (1.3.6.1.2.1.2)" on page 4-47. 4.3.10 IF MIB (1.3.6.1.2.1.31) 4.3.10.1 ifMIBObjects (1.3.6.1.2.1.31.
Configuration and Diagnostics -- (3) ifStackStatus -- (3) ifTestTable -- (1) ifTestEntry -- (1) ifTestID -- (2) ifTestStatus -- (3) ifTestType -- (4) ifTestResult -- (5) ifTestCode -- (6) ifTestOwner -- (4) ifRcvAddressTable -- (1) ifRcvAddressEntry -- (1) ifRcvAddressAddress -- (2) ifRcvAddressStatus -- (3) ifRcvAddressType -- (5) ifTableLastChange -- (6) ifStackLastChange 4.3.10.2 ifConformance (1.3.6.1.2.1.31.
FL SWITCH MM HS -- (9) etherControlPauseGroup -- (1) etherCompliances -- (1) etherCompliances -- (2) ether100MbsCompliance -- (3) dot3Compliance 4.3.10.4 lldpMIB (1.0.8802.1.1.
Configuration and Diagnostics -- (2) lldpRemManAddr -- (3) lldpRemManAddrIfSubtype -- (4) lldpRemManAddrIfId -- (5) lldpRemManAddrOID -- (5) lldpConformance 6874_en_09 PHOENIX CONTACT 4-67
FL SWITCH MM HS 4.3.11 Private MIBs The private MIBs for the MMS from Phoenix Contact can be found under object ID 1.3.6.1.4.1.4346. The MMS MIB contains the following groups: – pxcModules (OID = 1.3.6.1.4.1.4346.1) – pxcGlobal (OID = 1.3.6.1.4.1.4346.2) – pxcFactoryLine (OID = 1.3.6.1.4.1.4346.11) All configuration modifications, which are to take effect after an MMS restart, must be saved permanently using the "flWorkFWCtrlConfSave" object.
Configuration and Diagnostics pxcBasicName OID 1.3.6.1.4.1.4346.2.1.1 Syntax Display string Access Read Description Contains the manufacturer's name: Phoenix Contact GmbH & Co. KG. pxcBasicDescr OID 1.3.6.1.4.1.4346.2.1.2 Syntax Display string Access Read Description Contains the manufacturer's name and address: Phoenix Contact GmbH & Co. KG P.O. Box 1341 D-32819 Blomberg. pxcBasicURL OID 1.3.6.1.4.1.4346.2.1.
FL SWITCH MM HS flBasicDescr OID 1.3.6.1.4.1.4346.11.1.1.2 Syntax Display string Access Read Description Contains a brief description of the product group: Ethernet Installation System. flBasicURL OID 1.3.6.1.4.1.4346.11.1.1.3 Syntax Display string Access Read Description Contains a specific URL for the product group: www.factoryline.de. flBasicCompCapacity OID 1.3.6.1.4.1.4346.11.1.1.
Configuration and Diagnostics Description Contains the product index for the component. flComponentsName OID 1.3.6.1.4.1.4346.11.1.2.1.1.2 Syntax Display string Access Read Description Contains the designation of the component. flComponentsDescr OID 1.3.6.1.4.1.4346.11.1.2.1.1.3 Syntax Display string Access Read Description Contains a brief description of the component. flComponentsURL OID 1.3.6.1.4.1.4346.11.1.2.1.1.
FL SWITCH MM HS flWorkBasicURL OID 1.3.6.1.4.1.4346.11.11.1.3 Syntax Display string Access Read Description Contains the URL of the device-specific web page for WBM in the form of the currently set IP address. flWorkBasicSerialNumber OID 1.3.6.1.4.1.4346.11.11.1.4 Syntax Octet string (12) Access Read Description Contains the serial number of the device. flWorkBasicHWRevision OID 1.3.6.1.4.1.4346.11.11.1.
Configuration and Diagnostics flWorkBasicCompCapacity OID 1.3.6.1.4.1.4346.11.11.1.12 Syntax Integer 32 Access Read Description Contains the number of interfaces actually connected. flWorkComponents OID 1.3.6.1.4.1.4346.11.11.2 flWorkComponentsTable OID 1.3.6.1.4.1.4346.11.11.2.1 flWorkComponentsEntry OID 1.3.6.1.4.1.4346.11.11.2.1.1 Description Generates a table with the available interface modules of this switch station. flWorkComponentsIndex OID 1.3.6.1.4.1.4346.11.11.2.1.1.
FL SWITCH MM HS flWorkTraps OID 1.3.6.1.4.1.4346.11.11.3 flWorkTrapsDelemeter OID 1.3.6.1.4.1.4346.11.11.3.0 trapPasswdAccess OID 1.3.6.1.4.1.4346.11.11.3.0.1 Description Sent to the defined trap receiver on each modification or attempted modification of the device password and contains information about the status of the last modification or attempted modification. trapFWHealth OID 1.3.6.1.4.1.4346.11.11.3.0.
Configuration and Diagnostics trapPofScrjPort OID Description 1.3.6.1.4.1.4346.11.11.3.0.7 Sent in the event of switch-over to or from a critical state. trapPoEPort OID Description 1.3.6.1.4.1.4346.11.11.3.0.8 Always sent if the error status of a PoE port changes. trapManagerConnection OID 1.3.6.1.4.1.4346.11.11.3.0.99 Description This trap is used to test the connection between the device and trap manager. flWorkNet OID 1.3.6.1.4.1.4346.11.11.4 flWorkNetlfParameter OID 1.3.6.1.4.1.4346.11.11.4.
FL SWITCH MM HS Syntax IP address Access Read and write Description Contains the current subnet mask of the MMS. Modifications only take effect once the "flWorkNetIfParamSave" object has been executed. The "flWorkNetIfParamAssignment" object must be set to static (1), otherwise objects cannot be written. flWorkNetIfParamGwIpAddress OID 1.3.6.1.4.1.4346.11.11.4.1.4 Syntax IP address Access Read and write Description Contains the IP address of the current default gateway/router of the MMS.
Configuration and Diagnostics flWorkNetIfParamAssignment OID 1.3.6.1.4.1.4346.11.11.4.1.7 Syntax Integer Access Read and write Description Provides the option of modifying the assignment mechanism for IP parameters. Static IP address Assignment via BootP Assignment via DHCP Assignment via DCP 1 2 3 4 Modifications to the assignment mechanism also affect the management functions via the web interface, via V.24 (RS-232), and Telnet.
FL SWITCH MM HS OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.1 Syntax Integer32 (1 - 1024) Access Read Description Specifies the port number of the selected port. flWorkNetPortLinkState OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.2 Syntax Integer Access Read Description Indicates the port status: Connected 1 Not connected 2 farEndFault 3 flWorkNetPortSpeed OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.3 Syntax Gauge32 Access Read Description Contains the data transmission rate of the selected port in bps.
Configuration and Diagnostics OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.1 Syntax Integer32 (1 - 1024) Access Read Description Specifies the port number of the selected port. flWorkNetPortLinkState OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.2 Syntax Integer Access Read Description Indicates the port status: Connected 1 Not connected 2 farEndFault 3 flWorkNetPortSpeed OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.
FL SWITCH MM HS Description Here you can disable the port: Port disabled Port enabled 1 2 flWorkNetPortLinkMonitoring OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.8 Syntax Integer Access Read and write Description This object can be used to enable link monitoring (message via display and alarm contact) for the relevant port: Link monitoring enabled Link monitoring disabled 2 1 flWorkNetPortModus OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.
Configuration and Diagnostics Description Contains the index of the port according to IEEE 802.3ad. flWorkNetLLWHPort OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.12 Syntax Integer32 (8193 - 8296) Access Read Description Contains the index of the port according to IEEE 802.3ad, but possibly with gaps (due to missing ports). flWorkNetPortType OID 1.3.6.1.4.1.4346.11.11.4.2.2.1.13 Syntax Octet string Access Read Description Specifies the medium of this port. flWorkNetPortModuleName OID 1.3.6.1.4.1.
FL SWITCH MM HS Syntax Integer Access Read Description Specifies the port mode during redundancy operation: Spanning Tree Rapid Spanning Tree 1 2 flWorkNetPortPoETable OID 1.3.6.1.4.1.4346.11.11.4.2.3 flWorkNetPortPoEEntry OID 1.3.6.1.4.1.4346.11.11.4.2.3.1 Description Generates a table with a detailed description of the PoE port configuration. flWorkNetPortPoEIndex OID 1.3.6.1.4.1.4346.11.11.4.2.3.1.
Configuration and Diagnostics Description This object contains the detected PoE class of the connected device to the selected port: Class 0 0 Class 1 1 Class 2 2 Class 3 3 Class 4 4 Class 5 5 flWorkNetPortPoEOutputCurrent OID 1.3.6.1.4.1.4346.11.11.4.2.3.1.5 Syntax Integer (1 - 400) Access Read Description This object contains the current value of the output current in "mA" of the selected port. flWorkNetPortPoEOutputVoltage OID 1.3.6.1.4.1.4346.11.11.4.2.3.1.
FL SWITCH MM HS flWorkNetPofScrjIfGroup OID 1.3.6.1.4.1.4346.11.11.4.2.4 flWorkNetPortPofScrjIfTable OID 1.3.6.1.4.1.4346.11.11.4.2.4 Description Generates a table with a detailed description of the POF-SCRJ port properties flWorkNetPortPofScrjIfIndex OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.1 Syntax Integer32 (1 - 1024) Access Read Description Specifies the port number of the selected port. flWorkNetPortPofScrjIfStatus OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.
Configuration and Diagnostics OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.8 Syntax Integer32 (0 - 255) Access Read Description Provides the remaining system reserve in 0.1 dB increments. flWorkNetPortPofScrjIfRxPowerHighAlarm OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.9 Syntax Integer Access Read Description This object indicates whether the "RX power high" alarm has been triggered: Alarm not triggered Alarm triggered 1 2 flWorkNetPortPofScrjIfRxPowerLowAlarm OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.
FL SWITCH MM HS Access Read Description This object provides the IEEE manufacturer ID of the manufacturer of the POF-SCRJ transceiver at this port. flWorkNetPortPofScrjIfRevision OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.16 Syntax Octet string Access Read Description This object provides the version of the POF-SCRJ transceiver at this port. flWorkNetPortPofScrjIfWavelength OID 1.3.6.1.4.1.4346.11.11.4.2.4.1.
Configuration and Diagnostics flWorkFirmware OID 1.3.6.1.4.1.4346.11.11.11 flWorkFWInfo OID 1.3.6.1.4.1.4346.11.11.11.1 flWorkFWInfoVersion OID 1.3.6.1.4.1.4346.11.11.11.1.1 Syntax Octet string (4) Access Read Description Contains the firmware version as a string. Example for Version "3.97": 0x33, 0x2e, 0x39, 0x37. flWorkFWInfoState OID 1.3.6.1.4.1.4346.11.11.11.1.2 Syntax Octet string (6) Access Read Description Contains the firmware release as a string.
FL SWITCH MM HS flWorkFWInfoBootVersion OID 1.3.6.1.4.1.4346.11.11.11.1.6 Syntax Octet string (4) Access Read Description Contains the version of the boot loader as a string. Example for Version "2.65": 0x32, 0x2e, 0x36, 0x35. flWorkFWInfoBootState OID 1.3.6.1.4.1.4346.11.11.11.1.7 Syntax Octet string (6) Access Read Description Contains the boot loader release as a string. Example for "beta": 0x62, 0x65, 0x64, 0x61. flWorkFWInfoBootDate OID 1.3.6.1.4.1.4346.11.11.11.1.
Configuration and Diagnostics Syntax Display string Access Read Description Contains additional information/error states for the firmware. flWorkFWInfoDisplay OID 1.3.6.1.4.1.4346.11.11.11.1.13 Syntax Display string Access Read Description Contains the current data from the diagnostic display. flWorkFWCtrl OID 1.3.6.1.4.1.4346.11.11.11.2 flWorkFWCtrlBasic OID 1.3.6.1.4.1.4346.11.11.11.2.1 flWorkFWCtrlReset OID 1.3.6.1.4.1.4346.11.11.11.2.1.
FL SWITCH MM HS flWorkFWCtrlWebPageRefresh OID 1.3.6.1.4.1.4346.11.11.11.2.1.8 Syntax Integer (0 - 3600) Access Read and write Description Here you can set the refresh time for the automatic update of the web pages in seconds: Default No update 30 s 0s flWorkFWCtrlSNMP OID 1.3.6.1.4.1.4346.11.11.11.2.1.9 Syntax Integer Access Read and write Description Here you can activate/deactivate the SNMP agent. The modifications take effect following a restart.
Configuration and Diagnostics Access Description Generates a table with the IP addresses of the trap managers. flWorkFWCtrlTrapDestIndex OID 1.3.6.1.4.1.4346.11.11.11.2.2.1.1.1 Syntax Integer32 (1 - 1024) Access Read Description Contains the index of the target component, which should receive the traps. flWorkFWCtrlTrapDestIPAddr OID 1.3.6.1.4.1.4346.11.11.11.2.2.1.1.
FL SWITCH MM HS Syntax Integer Access Read and write Description Here test traps can be sent for a connection test by the SNMP agents. Sending test traps No test traps 2 1 flWorkFWCtrlTrapEnableTable 1.3.6.1.4.1.4346.11.11.11.2.2.10 flWorkFWCtrlTrapEnableEntry OID 1.3.6.1.4.1.4346.11.11.11.2.2.10.1 Syntax Access Description Generates a table with information about the traps. flWorkFWCtrlTrapEnableIndex OID 1.3.6.1.4.1.4346.11.11.11.2.2.10.1.
Configuration and Diagnostics flWorkFWCtrlPasswd OID 1.3.6.1.4.1.4346.11.11.11.2.3 flWorkFWCtrlPasswdSet OID 1.3.6.1.4.1.4346.11.11.11.2.3.1 Syntax Octet string (2 - 24) Access Read and write For security reasons the response is always "*****" with read access. Description A new password can be entered here with a maximum of 12 characters. Example: - Your new password should be "factory3". - The password must be entered a second time for confirmation. - Your entry "factory3factory3".
FL SWITCH MM HS flWorkFWCtrlUpdate OID 1.3.6.1.4.1.4346.11.11.11.2.4 flWorkFWCtrlTftpIpAddr OID 1.3.6.1.4.1.4346.11.11.11.2.4.2 Syntax IP address Access Read and write Description This object can be used to set the IP address of the TFTP server for the firmware update. flWorkFWCtrlTftpFile OID 1.3.6.1.4.1.4346.11.11.11.2.4.3 Syntax Octet string (0 - 64) Access Read and write Description This object can be used to set the name of the firmware file for TFTP download.
Configuration and Diagnostics flWorkFWCtrlRunningUpdate OID 1.3.6.1.4.1.4346.11.11.11.2.4.6 Syntax Integer Access Read Description This object can be used to request the status of the firmware update: Firmware update not started Executing firmware update Firmware update successful Connection error Incorrect file name Error 1 2 3 4 5 6 flWorkFWCtrlAutoUpdate OID 1.3.6.1.4.1.4346.11.11.11.2.4.
FL SWITCH MM HS flWorkFWCtrlDefaultUponDelivery OID 1.3.6.1.4.1.4346.11.11.11.2.5.3 Syntax Integer Access Read and write Description This object can be used to reset the device to the default settings (see "Default Upon Delivery/Default Settings" on page 3-1). It also triggers a restart: Do not reset to default settings Reset to default settings 1 2 flWorkFWCtrlConfName OID 1.3.6.1.4.1.4346.11.11.11.2.5.
Configuration and Diagnostics flWorkFWConfigStatus OID 1.3.6.1.4.1.4346.11.11.11.2.5.10.4 Syntax Integer Access Read Description This object provides information about the last TFTP transmission called: Transmission OK Transmission not OK No transmission Unknown 1 2 3 4 flWorkFWConfigExecute OID 1.3.6.1.4.1.4346.11.11.11.2.5.10.
FL SWITCH MM HS flWorkFWCtrlConfigMemoryModule (1.3.6.1.4.1.4346.11.11.11.2.5.11) flWorkFWCtrlConfMemoryModuleStatus OID 1.3.6.1.4.1.4346.11.11.11.2.5.11.1 Syntax Integer Access Read Description This object can be used to request the status of the MMS memory module: Memory module present Memory module working to full capacity Memory module not supported Memory module not present Faulty memory module 1 2 3 4 5 flWorkFWCtrlConfMemoryModuleClear OID 1.3.6.1.4.1.4346.11.11.11.2.5.11.
Configuration and Diagnostics flWorkFWCtrlConfigMemInfo (1.3.6.1.4.1.4346.11.11.11.2.5.11.5) flWorkFWCtrlConfigMemConfName OID 1.3.6.1.4.1.4346.11.11.11.2.5.11.5.1 Syntax Octet string Access Read Description Here the configuration name of the configuration saved in the memory module can be requested. flWorkFWCtrlConfigMemFwVersion OID 1.3.6.1.4.1.4346.11.11.11.2.5.11.5.
FL SWITCH MM HS flWorkFWCtrlSerialStopBits OID 1.3.6.1.4.1.4346.11.11.11.2.6.3 Syntax Integer Access Read Description Contains the number of stop bits in the serial interface: 1 bit 1 2 bits 2 flWorkFWCtrlSerialParity OID 1.3.6.1.4.1.4346.11.11.11.2.6.4 Syntax Integer Access Read Description Contains the parity mode for the serial interface: None 1 Odd 2 Even 3 flWorkFWCtrlSerialFlowControl OID 1.3.6.1.4.1.4346.11.11.11.2.6.
Configuration and Diagnostics flWorkFWCtrlAlarmContactEventLinkState OID 1.3.6.1.4.1.4346.11.11.11.2.7.1.2 Syntax Integer Access Read and write Description This object can be used to set the link down indication for the ports via the alarm contact: Monitoring disabled 1 Monitoring enabled 2 The "flWorkNetPortLinkMonitoring" object can be used to set port monitoring individually for each port. flWorkFWCtrlAlarmContactEventSecurityPortBlocked OID 1.3.6.1.4.1.4346.11.11.11.2.7.1.
FL SWITCH MM HS flWorkFWCtrlAlarmContactStatus OID 1.3.6.1.4.1.4346.11.11.11.2.7.3 Syntax Integer Access Read Description This object can be used to request the status of the alarm contact: Alarm contact open 1 Alarm contact closed 2 flWorkFWCtrlAlarmContactReason OID 1.3.6.1.4.1.4346.11.11.11.2.7.4 Syntax Display string Access Read Description Indicates the reason why the alarm contact was opened. flWorkFWCtrlSecurity OID 1.3.6.1.4.1.4346.11.11.11.2.8 flWorkFWCtrlSecurityAccess 1.3.6.1.4.
Configuration and Diagnostics Access Read and write Description Displays the access rights of the relevant client: Read-only access 1 Read/write access 2 flWorkFWCtrlSecurityAccessTableCapacityMax OID 1.3.6.1.4.1.4346.11.11.11.2.8.1.2 Syntax Integer32 Access Read Description Specifies the maximum possible number of entries for access to WBM. flWorkFWCtrlSecurityAccessEnable OID 1.3.6.1.4.1.4346.11.11.11.3.1.1.
FL SWITCH MM HS Description Displays the security mode of the port or modifies it: No security mode activated For unauthorized access only trap transmission In the event of unauthorized access the port is blocked In the event of unauthorized access the port is blocked with automatic enabling later on 1 2 3 4 flWorkFWCtrlSecurityPortState OID 1.3.6.1.4.1.4346.11.11.11.2.8.2.1.1.
Configuration and Diagnostics Syntax Octet string (0 - 16) Access Read and write Description Displays the user description of the MAC address. flWorkFWCtrlSecurityPort flWorkFWCtrlSecurityPortTableCapacityMax OID 1.3.6.1.4.1.4346.11.11.11.2.8.2.3 Syntax Integer32 Access Read Description Specifies the maximum possible number of entries in the security port table. flWorkFWCtrlSecurityPortMacTableCapacityMax OID 1.3.6.1.4.1.4346.11.11.11.2.8.2.
FL SWITCH MM HS Description Displays the port number. flWorkFWCtrlProfinetAlarmPortLinkMonitoring OID 1.3.6.1.4.1.4346.11.11.11.2.9.1.1.1.2 Syntax Integer Access Read and write Description In PROFINET mode, a slot can send an alarm if the link status changes from "Connected" to "Not connected": Do not send alarm Send alarm 1 2 flWorkFWCtrlProfinetAlarmPortPofScrjDiag OID 1.3.6.1.4.1.4346.11.11.11.2.9.1.1.1.
Configuration and Diagnostics flSwitch OID 1.3.6.1.4.1.4346.11.11.15 flSwitchCtrl OID 1.3.6.1.4.1.4346.11.11.15.1 flSwitchCtrlSpanTree OID 1.3.6.1.4.1.4346.11.11.15.1.1 Syntax Integer Access Read and write Description Activates/deactivates STP for the switch. STP deactivated STP activated 1 2 To enable STP activation, the "flSwitchCtrlRedundancy" object must be set to STP. flSwitchCtrlRedundancy OID 1.3.6.1.4.1.4346.11.11.15.1.
FL SWITCH MM HS flSwitchCtrlVLAN OID 1.3.6.1.4.1.4346.11.11.15.1.4 Syntax Integer Access Read and write Description Indicates whether the web pages required for VLAN configuration are enabled. VLAN web pages hidden VLAN web pages shown 1 2 flSwitchCtrlVLANTagMode OID 1.3.6.1.4.1.4346.11.11.15.1.5 Syntax Integer Access Read and write Description In "Transparent" mode the switch ignores the VLAN ID and forwards packets according to their priority alone.
Configuration and Diagnostics flSwitchCtrlRSTPLargeTreeSupport OID 1.3.6.1.4.1.4346.11.11.15.1.8 Syntax Integer Access Read and write Description When in RSTP large tree mode, the number of switches that can be connected to the root can be increased from 7 to 28 switches: Up to 7 switches in the root Up to 28 switches in the root 1 2 flSwitchCtrlHashMode OID 1.3.6.1.4.1.4346.11.11.15.1.
FL SWITCH MM HS flSwitchPortMirrDestinationPort OID 1.3.6.1.4.1.4346.11.11.11.15.2.1 Syntax Integer32 Access Read and write Description This object can be used to set the port (destination port), which mirrors the data of another port (source port): No port mirroring 0 flSwitchPortMirrSourcePort OID 1.3.6.1.4.1.4346.11.11.11.15.2.
Configuration and Diagnostics flSwitchIgmpSnoopAging OID 1.3.6.1.4.1.4346.11.11.15.3.1.3 Syntax Integer (30 - 3600) Access Read and write Description Here, the duration of the timeout period for the multicast groups dynamically learned (via IGMP) can be entered in seconds. flSwitchIgmpSnoopTable OID 1.3.6.1.4.1.4346.11.11.15.3.1.4 flSwitchIgmpSnoopEntry OID 1.3.6.1.4.1.4346.11.11.15.3.1.4.1 flSwitchIgmpSnoopEgressPorts OID 1.3.6.1.4.1.4346.11.11.15.3.1.4.1.
FL SWITCH MM HS flSwitchIgmpQuery OID 1.3.6.1.4.1.4346.11.11.15.3.2 flSwitchIgmpQueryTable OID 1.3.6.1.4.1.4346.11.11.15.3.2.1 flSwitchIgmpQueryEntry 1.3.6.1.4.1.4346.11.11.15.3.2.1.1 flSwitchIgmpQueryPorts OID 1.3.6.1.4.1.4346.11.11.15.3.2.1.1.1 Syntax Port list Access Read Description This object displays the ports that received the IGMP router query BPDUs. flSwitchIgmpQueryEnable OID 1.3.6.1.4.1.4346.11.11.15.3.2.
Configuration and Diagnostics flSwitchRedundancy OID 1.3.6.1.4.1.4346.11.11.15.4 flSwitchCtrlRSTPFastRingDetection OID 1.3.6.1.4.1.4346.11.11.15.4.1 Syntax Integer Access Read and write Description This object can be used to specify whether you wish to use standard RSTP or also fast ring detection as well: Standard RSTP Fast ring detection 1 2 flSwitchRSTPRingTable OID 1.3.6.1.4.1.4346.11.11.15.4.2 flSwitchRSTPRingEntry OID 1.3.6.1.4.1.4346.11.11.15.4.2.1 flSwitchRSTPRingIndex OID 1.3.6.1.4.
FL SWITCH MM HS Syntax Integer32 Access Read Description This object specifies the number of a local port (designated port) in this ring. flSwitchRSTPRingStatus OID 1.3.6.1.4.1.4346.11.11.15.4.2.1.6 Syntax Integer Access Read Description This object specifies the status of the RSTP ring: Ring closed Ring not closed Error 3 6 7 flSwitchRSTPRingFailedPort OID 1.3.6.1.4.1.4346.11.11.15.4.
Configuration and Diagnostics flSwitchRelayAgentDhcpStatus OID 1.3.6.1.4.1.4346.11.11.15.5.3 Syntax Octet string (1 - 255) Access Read Description This object indicates the status of the DHCP relay agent. The status is affected by: – The "flSwitchRelayAgentDhcpCtrl" object – The assignment mechanism for the IP parameters flSwitchRelayAgentDhcpRIdType OID 1.3.6.1.4.1.4346.11.11.15.5.
FL SWITCH MM HS 4.4 Management via Local V.24 (RS-232) Communication Interface 4.4.1 General Function A local communication connection can be established to an external management station via the V.24 (RS-232) interface in Mini-DIN format. Use the "PRG CAB MINI DIN" programming cable (Order No. 2730611). The communication connection is established using a corresponding emulation between the switch and a PC (e.g., HyperTerminal under Windows) and enables access to the user interface.
Configuration and Diagnostics 4.4.2 User Interface Functions 4.4.2.1 Functions During the Boot Process After a Restart If you open the user interface in the first five seconds immediately after an MMS restart, you have the option of triggering a firmware update. Since the actual switch firmware is not yet started at this stage, even in the event of an error, e.g., if the firmware on the device is faulty, this firmware can still be updated (see "Starting With Faulty Software (Firmware)" on page 4-120).
FL SWITCH MM HS The login screen indicates the version of the firmware used. A password must be entered to make other settings. By default upon delivery, the password is "private". It is casesensitive. We strongly recommend that you change the password (via SNMP or WBM). Basic Switch Configuration Figure 4-52 IP configuration in the user interface As well as displaying the set MAC address, this screen can be used to view or modify the IP parameters.
Configuration and Diagnostics Resetting to the Default Settings 6 8 7 4 0 0 1 2 Figure 4-53 Resetting to the default settings This screen can be used to reset the switch to the settings default upon delivery or to restart it. This screen can be opened by first setting the "Reset Switch" option or the "Reset Switch to factory defaults" option in the "Basic Switch Configuration" screen, and then selecting "Apply" or "Save".
FL SWITCH MM HS 4.4.3 Starting With Faulty Software (Firmware) If the software (firmware) installed on the MMS is faulty, you can restore or update the firmware using an update. Observe the 7-segment display (see also page 1-15). Procedure: – – Connect the switch to your PC via the serial V.24 (RS-232) interface. Make sure that your HyperTerminal is configured correctly (see configuration on page 4-116). Restart the switch.
Configuration and Diagnostics Press "a" to download the new software. The following message appears: 6 8 7 4 0 0 2 5 Figure 4-56 XMODEM ready The switch is now ready for the new firmware. In HyperTerminal, select "Send File" from the "Transmission" menu. Figure 4-57 Xmodem - Send File option Make sure that the protocol is set to "Xmodem", otherwise the transmission will fail.
FL SWITCH MM HS Clicking "Send" starts the file transfer. The following screen shows the progress of the file transmission. Figure 4-58 File transmission with Xmodem File transmission may take a few minutes. Do not perform any other actions while the box is open. Once the box has closed, a message appears in HyperTerminal. Enter "c" to continue with the boot process, or trigger a reset using the reset button.
Configuration and Diagnostics 4.5 Management via Telnet The Telnet protocol provides the function of a virtual terminal. It offers remote access from a specific computer to other systems in the network (e.g., PCs or MMS). Telnet uses TCP/IP on the network, supports the functions of Layers 5 to 7, and provides bidirectional communication for linking data termination devices with the relevant processes.
FL SWITCH MM HS Structure of the Telnet Interface Screens Login Screen 6 8 7 4 0 0 1 0 Figure 4-60 User interface login screen The login screen indicates the version of the firmware used. A password must be entered to make other settings. By default upon delivery, the password is "private". It is casesensitive. We strongly recommend that you change the password.
Configuration and Diagnostics As well as displaying the set MAC address, this screen can be used to view or modify the IP parameters. In order to set the IP parameters, the "Static" option must be selected for "IP Parameter Assignment". All settings are transferred using "APPLY", but are not saved permanently. Use the "SAVE" function to save the active configuration settings permanently. Resetting to the Default Settings Select "Reset" in the "Basic Switch Configuration" screen.
FL SWITCH MM HS 4-126 PHOENIX CONTACT 6874_en_09
(Rapid) Spanning Tree 5 (Rapid) Spanning Tree 5.1 General Function Loops The Rapid/Spanning Tree Protocol (RSTP) is a standardized method (IEEE 802.802.1w/IEEE 802.1d) that enables the use of Ethernet networks with redundant data paths. Ethernet networks with redundant data paths form a meshed topology with impermissible loops. Due to these loops, data packets can circulate endlessly within the network and can also be duplicated.
FL SWITCH MM HS 5.2 (R)STP Startup Startup consists of two parts that must be executed in the specified order: 1 Enable (R)STP on all switches that are to be operated as active (R)STP components in the network. 2 Connect the switches to form a meshed topology. Only create the meshed topology after activating (R)STP. 5.2.1 Enabling (R)STP on All Switches Involved (R)STP can be activated via web-based management, via the SNMP interface, via the serial interface or via Telnet.
(Rapid) Spanning Tree Figure 5-2 "User Interfaces" menu The previously created configuration is lost and the web pages for (R)STP are hidden if "Redundancy" is set to "Disable" on the "User Interfaces" web page following (R)STP configuration.
FL SWITCH MM HS Now switch to the "(R)STP General" page in the "Switch Station" menu. Here, you will find various information about the Spanning Tree configuration. Figure 5-3 (R)STP General The web page displays the parameters with which the switch is currently operating. (R)STP Configuration It is sufficient to set the Rapid Spanning Tree status to "Enable" in order to start (R)STP using default settings. Priority values can be specified for the switch.
(Rapid) Spanning Tree Figure 5-4 (R)STP Configuration Large Tree Support If RSTP is operated using the default values, it is suitable for up to seven switches along the relevant path (see Figure 5-18 on page 5-24 and Figure 5-19 on page 5-25 as an example for the relevant path). The RSTP protocol would therefore be possible in a ring topology for up to 15 switches. The "Large Tree Support" option makes the ring topology suitable for 28 switches along the relevant path if RSTP is used.
FL SWITCH MM HS Forward Delay The forward delay value indicates how long the switch is to wait in order for the port state in STP mode to change from "Discarding" to "Listening" and from "Listening" to "Learning" (2 x forward delay). The "Maximum Age of STP", "Hello Time", and "Forward Delay" parameters are optimized by default upon delivery. They should not be modified. (R)STP Port Table Figure 5-5 (R)STP Port Table Oper Edge Port All ports that do not receive any (R)STP BPDUs (e.g.
(Rapid) Spanning Tree (R)STP Port Configuration Table Figure 5-6 "(R)STP Port Configuration Table" menu An overview of the main settings for each port is provided here: 5.2.1.2 (R)STP Port Configuration Modifications of properties can result in complete reconfiguration of (Rapid) Spanning Tree. It is recommended that a suitable root switch and a backup root switch are specified using corresponding priority assignment. This page displays the valid (R)STP configuration settings for the selected port.
FL SWITCH MM HS Port Identifier The port ID consists of 4 bits for the port priority and 12 bits for the port number. The port ID is interpreted as an unsigned integer value. When comparing two port IDs, the one with the lowest numeric value is of higher, i.e., "better" priority. Figure 5-7 (R)STP Port Configuration Port Number Indicates the number of the port currently selected. Port Name Indicates the name of the port. STP Port State Indicates the status in which this port takes part in STP.
(Rapid) Spanning Tree Admin Edge Port Here you can specify whether this port is to be operated as an edge port (default setting), if possible. Priority Indicates the priority set for this port (default 128). Due to backwards compatibility with STP, priority values can be set that are not configurable in RSTP. Admin Path Cost Indicates the path costs set for this port. A path cost equal to "0" activates the cost calculation according to the transmission speed (10 Mbps = 100; 100 Mbps = 19).
FL SWITCH MM HS RSTP Fast Ring Detection The "RSTP Fast Ring Detection" function can be activated on the "RSTP Configuration" web page (see page 5-5). This function speeds up the switch-over to a redundant path in the event of an error and provides easy diagnostics. RSTP fast ring detection provides each ring with an ID, this ID is made known to each switch in the relevant ring. A switch can belong to several different rings at the same time.
(Rapid) Spanning Tree If "Breaked" or "Failed" status lasts for longer than 60 seconds, it is no longer displayed after the next topology modification, since these rings no longer exist. When using RSTP fast ring detection, please note the following: – For RSTP fast ring detection, do not use devices that do not support this function. – Enable RSTP fast ring detection on all devices. – All data paths must be in full duplex mode. 5.2.
FL SWITCH MM HS 5.2.3 Mixed Operation of RSTP and STP If a device with STP support is integrated into the network, only switch ports that receive STP BPDUs are set to STP mode. All other ports that receive RSTP BPDUs remain in RSTP mode. 5.2.4 Topology Detection of a Rapid Spanning Tree Network (RSTP) (Rapid) Spanning Tree switches continually exchange information about the network topology using special messages (BPDUs - Bridge Protocol Data Units).
(Rapid) Spanning Tree The properties of the various port states are shown in the table below. Table 5-1 Properties of the port states Receiving and Evaluating BPDUs (Learning the Topology) Learning the MAC Addresses of Connected Devices and Creating Switching Tables Forwarding Data Packets (Normal Switching Function) Disabled Blocking/Discarding X Learning X X Forwarding X X X The sequence of the five port states defined in the Spanning Tree Protocol cannot be assigned freely.
FL SWITCH MM HS – Switches to the "Forwarding" state immediately after establishing the data link. Termination devices connected to this port can be accessed immediately. "Port STP Status" in WBM on the "STP Port Configuration" page must be set to "Disabled" to activate fast forwarding. Frame duplication Due to the fast switch-over times of RSTP, frames may be duplicated and the order of frames may be changed. 5.2.4.
(Rapid) Spanning Tree 5.2.5 Configuration Notes for Rapid Spanning Tree In contrast to the Spanning Tree method, the Rapid Spanning Tree method supports event-controlled actions that are no longer triggered based on a timer. If one cable fails (link down), the Rapid Spanning Tree method can respond more quickly to this failure and thus the switch-over time can be kept low.
FL SWITCH MM HS For the last two data path options, no specific precautionary measures are necessary. If necessary, the "Fast Forwarding" option can be used for the relevant ports (see "Fast Forwarding" on page 5-13).
(Rapid) Spanning Tree dimensioned using IEEE standard default values so that a topology with a maximum of ten active Spanning Tree components always results in a stable network. When using large tree, please note the following (see also "Large Tree Support" on page 5-5): – In the large tree support RSTP topology, do not use devices that do not support large tree support. – Enable the large tree support option on all devices.
FL SWITCH MM HS 5.2.5.2 Example Topologies 5.2.5.3 Redundant Coupling of Network Segments In this example, two network segments are connected via redundant data paths. Two RSTP components have ports in the "Blocking/Discarding" state (highlighted in gray). This is sufficient to operate the network. FL SWITCH MCS 16TX Ord. No.
(Rapid) Spanning Tree Example with fast ring detection 1 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 3 5 7 9 11 13 15 10 12 14 16 MODE 2 MAC Address 1 Switch 3 Priority: Default Switch 1 Root bridge Priority: 0 1 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 3 5 7 9 11 13 15 10 12 14 16 4 6 8 US1 US2 FAIL 00.A0.45.1B.D2.1D X17 US1 GND US2 GND X18 R1 R2 2 3 4 5 6 7 9 10 11 12 13 14 15 16 8 X19 V.
FL SWITCH MM HS There is only ever one root port per switch. Exception: The switch supports several Spanning Tree domains. Designated Ports Ports in the forwarding state of the designated switch. These are the ports with the "best" path to the root switch. Switch ID Priority and MAC Address The switch with the lowest bridge identifier is the root switch. The bridge identifier consists of the MAC address and the priority.
(Rapid) Spanning Tree Selecting a Root Port Once the root switch has been specified by processing the root IDs, the switches now specify the root ports. The most favorable path is specified by minimizing all connection costs on the path to the root switch. In addition, transmission speeds can also serve as costs.
FL SWITCH MM HS 5.2.5.6 Flowchart for Specifying the Root Path Determine path to root switch Same path costs? No Lowest path costs Root path Yes Same priority for switches (bridge identification)? No Highest priority for switch Root path No Highest priority for port Root path Yes Same priority for individual ports? Yes Lowest port number Root path Path to root switch is determined Figure 5-16 5.2.5.
(Rapid) Spanning Tree Specifying the Root Switch The root switch is assigned via the assignment of an appropriate priority for the Spanning Tree segment. Set the highest priority (lowest value) in the "Priority" field on the "STP Bridge Configuration" page in WBM for the switch selected as the root switch. Make sure that all the other network switches have a lower priority (higher value). Here, the set path costs are not evaluated.
FL SWITCH MM HS 5.2.5.9 Modifying the Protocol Timer Modifying the protocol timer may result in unstable networks. It may be necessary to modify the protocol timer if, e.g., there are more than ten active Spanning Tree components in a single network. You can also attempt to reduce the reconfiguration times by modifying the timer. However, care should be taken in order to prevent unstable networks.
(Rapid) Spanning Tree LNK MODE ACT 100 1 FD LNK MODE 1 2 LNK MODE 1 2 MODE FL SWITCH MM HS Ord. No. 28 32 32 6 LNK MODE 1 2 X1 2 X2 X3 X4 Reset US1 MAC Address 00A0451BDD US2 Fail US1 GND US2 GND R1 R2 V.24 1 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 3 5 7 9 11 13 15 12 14 16 MODE 1 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 3 5 7 9 11 13 2 15 MAC Address 1 X17 US1 GND US2 GND MODE 2 MAC Address 4 6 8 10 12 14 4 6 8 10 US1 US2 FAIL 00.A0.45.1B.D2.
FL SWITCH MM HS Port Roles The root port of a switch connects this switch to the root switch - either directly or via another switch (designated switch). The designated port is the port at a designated switch that is connected to the root port of the next switch. No additional switches/bridges are connected to edge ports. Termination devices are connected to edge ports. An alternate port is a path to the root, which, however, did not become a root port. I.e., this port is not part of the active topology.
Multicast Filtering 6 Multicast Filtering 6.1 Multicast Basics Multicast applications, unlike unicast applications with point-to-point communication, do not transmit their data with the MAC address of the destination, but with an independent multicast group address. Always using connectionless communication, a station transmits one data packet that is received by one or more receiver stations.
FL SWITCH MM HS – For network modifications, during servicing or expansion, the multicast data paths must be restored. 6.3.1 "Current Multicast Groups" Web Page The table on this web page provides an overview of the current multicast groups created on this MMS. These include multicast groups that are assigned as a result of IGMP snooping or groups that are statically created.
Multicast Filtering Because of the conversion from IP to MAC addresses, you should avoid using IP addresses that differ with regard to the third byte from the right by 128. Example: 3 rd b y te fr o m th e r ig h t 1 s t m u ltic a s t IP a d d r e s s : 2 2 8 . 2 n d m u ltic a s t IP a d d r e s s : 2 3 0 . 1 5 8 . 1 1 7 . 2 1 6 D iffe r e n c e : 1 3 0 . 1 1 7 . 2 1 6 1 2 8 Both multicast IP addresses are converted into the multicast MAC address 01:00:5e:1e:75:d8.
FL SWITCH MM HS Modifying assignment Select the corresponding group in the "Select Group" list box to modify or delete the port assignment. The group members are indicated by activated checkboxes and can be modified, if required. An action is completed by entering a password and clicking on "Apply" or "Delete". Figure 6-2 Checking group assignment "Static Multicast Groups" menu In order to check which ports are assigned to which group, select one of the existing groups.
Multicast Filtering 6.3.3 Procedure for Creating a Multicast Group Gain an overview of the multicast applications available within the network and the multicast addresses used. Create a group for every multicast application or for the multicast address used, and for each switch add the ports to which a device of the appropriate group is directly connected or via which the device can be accessed.
FL SWITCH MM HS Transmitter LNK MODE ACT 100 LNK MODE 1 FD LNK MODE 1 2 X1 2 Output port number 1 1 2 X2 Switch number LNK MODE 1 2 MODE FL SWITCH MM HS Ord. No. 28 32 32 6 1 2 X3 X4 Reset US1 MAC Address 00A0451BDD US2 Fail US1 GND US2 GND R1 R2 V.24 2 LNK MODE ACT 100 1 FD MAC Address 00A0451BDD LNK MODE 1 2 MODE FL SWITCH MM HS Ord. No.
Multicast Filtering 6.4 6.4.1 IGMP on Layer 3 Dynamic Multicast Groups Internet Group Management Protocol (IGMP) The Internet Group Management Protocol describes a method for distributing information via multicast applications between routers and termination devices at IP level (Layer 3). When starting a multicast application, a network device transmits an IGMP membership report and thus informs its members of a specific multicast group.
FL SWITCH MM HS 6.4.1.1 Extended Multicast Filtering If IGMP snooping is active, multicast data streams are also detected for which no membership reports of possible recipients are registered. For these multicasts, groups are created dynamically. These multicasts are forwarded to the querier, i.e., the querier port is entered in the group. If the switch itself is the querier, these multicasts are blocked. 6.4.
Virtual Local Area Network (VLAN) 7 Virtual Local Area Network (VLAN) 7.1 VLAN Basics A VLAN is a closed network, which is separated logically/functionally rather than physically from the other networks. A VLAN creates its own broadcast and multicast domain, which is defined by the user according to specified logical criteria. VLANs are used to separate the physical and the logical network structure.
FL SWITCH MM HS VLAN ID 1 cannot be deleted and is thus always created on the switch. If you delete the VLAN in which the MMS is managed, management is automatically switched to VLAN 1. The "IGMP Query" function only transmits in the management VLAN and only stops if there is a better querier in the management VLAN. 7.2.2 Changing the Management VLAN ID 7.2.2.1 Configuration in Transparent Mode 1 2 3 4 5 6 In WBM, enable the pages for VLAN configuration (WBM: User Interfaces/Virtual LAN).
Virtual Local Area Network (VLAN) Tagging In "Tagging" mode, incoming packets are received according to the specified VLAN rules, a VLAN tag is added, if required, and the packet is then processed by the switch and the management level according to the information in the tag. When transmitting Ethernet packets, the switch observes the rules for the relevant VLAN or the relevant output port. The management VLAN ID specifies in which VLAN the switch can be accessed if it is operating in "Tagging" VLAN mode.
FL SWITCH MM HS 7.4 Current VLANs The "Current VLANs" web page provides an overview of the VLANs currently created. In addition, refer to the table for the VLAN in which the switch is actually managed (see also ""IP Configuration" web page" on page 4-14). All static and dynamic VLANs are listed here. A distinction is made between tagged (T) and untagged (U) group members, as well as non-members (-) (see possible states on page 7-5).
Virtual Local Area Network (VLAN) 7.4.1 Static VLANs Static VLANs can be created on this web page. Up to 31 new VLANs can be created (VLAN 2 to VLAN 32). If more are created, a corresponding message will be displayed. VLAN 1 is always created statically and all ports are added to it as untagged members. By default upon delivery, with "Tagging" VLAN mode activated, network-based management interfaces (WBM, Telnet, and SNMP) are only available from VLAN 1.
FL SWITCH MM HS Ports with "Forbidden" status do not belong to the selected VLAN and cannot be added dynamically to this VLAN via GVRP. - = None Ports with "None" status are not integrated into the VLAN. 7.4.2 VLAN Port Configuration Port-specific VLAN settings can be made on this web page.
Virtual Local Area Network (VLAN) 7.4.3 VLAN Port Configuration Table This web page provides an overview of the main VLAN settings for the ports. Clicking on the relevant port number opens the "VLAN Port Configuration" web page, where the settings can be modified. This table can be used to assign incoming packets to the created VLANs if the packets reached the port without VLAN tag. Figure 7-5 7.
FL SWITCH MM HS Device A Untagged member of VLAN 5 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 1 3 5 7 2 4 6 8 9 11 13 15 10 12 14 16 Switch 1 Port 7 PVID 5, Prio 4 Untagged member of VLAN 5 MODE US1 US2 FAIL MAC Address 00.A0.45.1B.D2.1D 1 X17 US1 GND US2 GND Switch 2 Port 2 PVID X, Prio X Tagged member of VLAN 5 X18 R1 R2 2 3 4 5 6 7 9 10 11 12 13 14 15 16 8 X19 V.24 ACT 100 FD LNK MODE ACT 100 FD 1 LNK MODE 1 2 MODE FL SWITCH MM HS Ord. No.
Virtual Local Area Network (VLAN) 1 2 The infrastructure is also operated in "VLAN Tagging" mode and VLAN 5 is created based on the relevant devices. Result: high configuration and maintenance costs. GVRP is activated in "VLAN Tagging" mode on all infrastructure components and the information about the created VLANs is transmitted within the network via switch 1 and switch 2. Result: bidirectional data exchange is ensured between termination device A and B. 7.5.
FL SWITCH MM HS 1 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 3 5 7 9 11 13 15 10 12 14 16 MODE 2 MAC Address 1 LNK MODE ACT 100 LNK MODE 1 FD LNK MODE 1 2 X1 2 6 4 5 8 6 7 9 10 11 12 13 14 15 16 8 ACT 100 FD 1 3 5 7 9 11 13 15 10 12 14 16 2 X3 X4 MODE 2 MAC Address 4 6 8 US1 US2 FAIL 00.A0.45.1B.D2.1D Reset 1 X17 US1 GND US2 GND MAC Address 3 X19 V.24 FL SWITCH MCS 16TX Ord. No. 28 32 70 0 1 2 X2 X18 R1 R2 LNK MODE 1 2 MODE FL SWITCH MM HS Ord.
Operating as a PROFINET Device 8 Operating as a PROFINET Device The switch is supported as a PROFINET device in PC WorX Version 5.00.26 or later. In a PROFINET application, the PROFINET IO controller is responsible for starting up the switch. This includes assigning the IP parameters, comparing the desired/actual configuration, and archiving alarms sent by the switch. In the event that a device is replaced, the control system detects the replacement device and starts it up automatically.
FL SWITCH MM HS Figure 8-1 Switching to "Default" mode "Operating Mode" web page When the switch is reset to "Default" mode from "PROFINET" mode, the following settings are made: – LLDP remains active with the values default upon delivery. – IP address assignment is set to BootP. – The station name for the switch does not change. If no station name has been specified, the device type is entered. It is recommended to save the new configuration after changing operating mode.
Operating as a PROFINET Device Figure 8-2 The switch in the bus configuration under PC WorX If the switch is not listed in the device catalog, the device description provided by Phoenix Contact must be imported. The latest device description can be downloaded at www.download.phoenixcontact.com.
FL SWITCH MM HS – One or more interface modules configured incorrectly -> Following startup, the MMS indicates "Cd" (configuration difference) in the display If "Cd" appears in the display, insert the correct interface modules and restart the switch. The desired/actual configuration is no longer monitored during the system runtime. 8.2.
Operating as a PROFINET Device The PROFINET variables can then be created and used in the control program. In addition to the "PNIO_DATA_STATE" standard variables, the switch provides the link status as a process data byte for each port.
FL SWITCH MM HS 8.3 8.3.1 PROFINET Alarms Alarms in WBM In "PROFINET" mode, the "PROFINET Alarms" web page appears in the navigation bar under "Switch Station/Diagnostics". Here, all alarms supported by the IO device can be activated. The PROFINET alarms are sent to the control system by the IO devices. From there they can be read from the diagnostics archive using "DIAG+" (Version 2.0 is included in Service Pack 1 for PC WorX 5.00.26).
LLDP (Link Layer Discovery Protocol) 9 LLDP (Link Layer Discovery Protocol) 9.1 LLDP Basics The switch supports LLDP according to IEEE 802.1ab and enables topology detection of devices that also have LLDP activated. Advantages of using LLDP: – Improved error location detection. – Improved device replacement. – More efficient network configuration.
FL SWITCH MM HS Table 9-1 Event table for LLDP Event Activity of the Individual LLDP Agent Response of the Neighboring LLDP Agent Activate LLDP agent or device startup Transmit LLDP BPDUs to all ports Include sender in the list of neighbors Deactivate LLDP agent or software reset Transmit LLDP BPDUs with a TTL value of 0 seconds to all ports Delete sender from the list of neighbors Link up Send port-specific LLDP BPDUs Include sender in the list of neighbors Link down Delete all neighbors fo
LLDP (Link Layer Discovery Protocol) LLDP Topology Figure 9-2 "LLDP Topology" web page A table is created for known neighbors and contains the following five columns: – Local Port Contains the port number of the local switch that is used to connect a neighbor to this switch. The port number is also a link to the local "Port Configuration" web page. – Type An icon is displayed here, which corresponds to the neighboring device type.
FL SWITCH MM HS 9.2 Representation of the Topology in an Engineering Tool The LLDP information can be represented as such or similarly in engineering tools.
DHCP Relay Agent 10 DHCP Relay Agent The MMS is able to act as a DHCP relay agent. The DHCP relay agent function is required for DHCP option 82. DHCP option 82 is used by the DHCP server when assigning addresses to identify the requesting termination device via the corresponding physical switch port. In the event of device replacement, DHCP option 82 enables the replacement device to be assigned the same IP address as the replaced device due to the physical position in the network.
FL SWITCH MM HS 10.1.0.1 Disabling the Relay Agent According to the Port In firmware Version 4.50 or later, the DHCP relay agent function can be disabled according to the port. No DHCP option 82 packets are sent by the deactivated ports. Figure 10-1 "Relay Agent" web page The "DHCP Relay Agent" function and IP address assignment via DHCP cannot be activated at the same time.
Technical Data and Ordering Data 11 Technical Data and Ordering Data 11.1 Technical Data General Data Function Modular Managed Ethernet/Fast Ethernet Switch; conforms to standard IEEE 802.
FL SWITCH MM HS Interfaces at the Head Station Number of slots for interface modules Connection medium 4 Via interface modules, flexible media support Number of Ethernet ports Head station 8 Head station and one extension module 16 Head station and two extension modules 24 System interface for extension module Number of extension modules 2 Transmitted signals Supply voltage, control signals, data V.
Technical Data and Ordering Data RJ45 Interfaces – Power over Ethernet IEEE 802.3af (Continued) Test voltage 500 V AC for one minute Maximum current consumption on US at 48 V DC 900 mA Typical power consumption 40 W Ethernet Interface (SC) – Multi-Mode Number Connection format Wavelength 2 SC duplex female connector on the switch 1300 nm Laser protection Class 1 according to DIN EN 60825-1:2001-11 Minimum transmission length including 3 dB system reserve 6.4 km glass fiber with F-G 50/125 0.
FL SWITCH MM HS Ethernet Interfaces – POF-SMA (Continued) (Average) dynamic transmission power (fiber type) in link mode Minimum -8.0 dBm (980/1000 µm) Reduced by -12 dBm (980/1000 µm) via switch (Average) dynamic receiver sensitivity (fiber type) in link mode Minimum Optical overrange -23.0 dBm (980/1000 µm) -11.
Technical Data and Ordering Data Mechanical Tests Shock test according to IEC 60068-2-27 Operation: 25g, 11 ms period, half-sine shock pulse Storage/transport: 50g, 11 ms period, half-sine shock pulse Vibration resistance according to IEC 60068-2-6 Operation/storage/transport: 5g, 10 - 150 Hz, Criterion 3 Free fall according to IEC 60068-2-32 1m Conformance With EMC Directives Noise emission according to EN 55011 Class A Warning: The limit values of the electromagnetic noise emission according to E
FL SWITCH MM HS Typical Module Current Consumption (Continued) Example Structures Station with 2 FX modules and 2 TX modules 350 mA [1] + (2 x 200 mA [5]) + (2 x 0 mA [3]) = 750 mA Station with 2 FX modules, 5 HCS modules, and 1 POF/TX module 350 mA [1] + 250 mA [2] + (2 x 200 mA [5]) + (5 x 100 mA [4]) + 60 mA [6] = 1560 mA Station with 5 FX modules, 4 HCS modules, 2 TX modules, and 1 POF/TX module 350 mA [1] + (2 x 250 mA [2]) + (5 x 200 mA [5]) + (4 x 100 mA [4]) + (2 x 0 mA [3]) + 60 mA [6] = 2310 mA 1
Technical Data and Ordering Data Accessories Description Order Designation Order No. Pcs./Pck. Converter board, which extends the FL IF TX/POF 100...
FL SWITCH MM HS 11.4 Ordering Data for GL-Certified Components (GL Certificate No. 24 2750 4 HH) Products Description Order Designation Order No. Pcs./Pck.
A Appendix: Index Symbols C "Private" password................................................... 4-18 % scale .................................................................... 4-37 Cable interrupt ......................................................... 3-10 Cascading style sheets Level 1 ............................... 4-11 Change Password ................................................... 4-18 Class 0..................................................................... 4-34 Class 4...............
FL SWITCH MM HS Dust protection caps ................................................ 3-14 Dynamic Host Configuration Protocol...................... 4-15 E Edge port ................................................................. 5-26 EMC1....................................................................... 2-10 Engineering tool....................................................... 4-15 Environmental Category EMC2 ............................... 2-10 Error code "87" ...................................
Navigation tree......................................................... 4-12 NEF 1- 6 .................................................................. 2-10 Network availability .................................................... 1-2 Network class ............................................................ 3-3 Network ID ................................................................. 3-3 Network part .............................................................. 3-5 Network topology ..................
FL SWITCH MM HS Redundant data paths ............................................... 5-1 Refresh interval........................................................ 4-18 Removal..................................................................... 2-3 Request ................................................................... 4-14 Required hardware .................................................... 1-6 Resetting to the default settings ................ 4-119, 4-125 RFC1213 ....................................
