User manual UM EN FL SWITCH LM - Digi-Key
Contents
1. Ein S S poer ej e EI 10 eeee eeez EY EE MN 15 118 00 oa mmm 8 72780010 9 Figure 4 11 Redundant coupling of network segments 7278_en_05 PHOENIXCONTACT 4 13 FL SWITCH LM 4 2 4 2 Flowchart for specifying the root path Determine path to root switch Same path costs Lowest path costs 2 Root path Highest priority for switch 2 Root path Same priority for switches bridge identification Highest priority for port 2 Root path Same priority for individual ports Yes Lowest port number 2 Root path Path to root switch is determined Figure 4 12 Flowchart for specifying the root path 4 2 4 3 Extended configuration It may be useful to actively specify the topology that is formed due to the Rapid Spanning Tree Protocol and to not leave it to the random MAC addresses of the switches involved Non blocking blocking data paths can thus be influenced and a load distribut2. Switch 2 Port 3 VID X Prio X participant VLAN 5 with Tags Switch configuration 1 2 3 4 Device A participant in VLAN 5 without Tags Switch 1 Port 7 VID 5 Prio 4 participant VLAN 5 without Tags Switch 1 Port 1 VID X Prio X participant VLAN 5 with Tags Device B participant in VLAN 5 without Tags Example Communication between termination devices via VLAN Set both switches to VLAN Tagging mode save and restart devices On switch 1 set up VLAN 5 and specify port 7 as an untagged member and port 1 as a tagged member For port 7 at switch 1 set the port VLAN ID to 5 and the port priority to any On switch 2 set up port 2 and port 3 as tagged members of VLAN 5 Both termination devices now communicate via the network path shown in the example without other switch ports forwarding the broadcast packets for both termination devices for example 6 6 VLAN and R STP When using R STP and VLAN simultaneously please note the following R STP is not based on VLANs R STP creates a loop free topology in the form of a tree structure 6 8 PHOENIX CONTACT 7278 en 05 Virtual Local Area Network VLAN Inthe event of static VLAN configuration all possible redundant data paths must be taken into consideration in the configuration All possible backbone ports of the network not the termination device ports must be inserted in all available VLANs as tagged memb
3. FL SWITCH LM 8TH verbunden 00 01 00 auto Erkenn 38400 8 N 1 Figure 3 34 NUM Aufzeichnen Druckerecho 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 Assignment In order to set the IP parameters the Static option must be selected for IP Parameter a device restart This user interface screen can be used to determine the addressing mechanism or to trigger All settings are applied using APPLY but are not saved permanently Use the SAVE function to save the active configuration settings permanently 3 54 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics Resetting to the default settings Reset Switch Warning Warning Resetting the switch will cause all connectivity to the switch to be lost until the switch has rebooted If you select reset to factory default all configuration information will be reset to its factory default settings Confirm Reset lt No gt PREV MENU APPLY Push Space Bar to select and reset the switch Figure 3 35 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 an
4. 5 1 5 8 Multicast source 5 5 5 3 1 Properties of multicast source detection 5 5 6 Virtual Local Area Network VLAN ssssse HII HH emm eee 6 1 6 1 LII 6 1 6 2 Enabling the VLAN web pages in web based 6 1 6 2 1 Management VLAN ID eseeesseeeeeeeeneneneennenen nennen 6 2 6 2 2 Changing the management VLAN ID eene 6 2 6 3 General VLAN Configuration sssssseeeneeenennenen nennen 6 3 6 4 GC IRUN re 6 4 6 4 1 Static VEANS stin esenea rae ite tec tuc E e eE eater ates 6 5 6 4 2 VLAN Port Configuration essen 6 6 6 4 8 VLAN Port Configuration Table seen 6 6 6 5 Setting uD statie p ft 6 7 6 6 VLAN aNd AO TP ERE Le t esee e REC Eae LEO EUER REDE Ege Ees 6 8 7 Mechnicaldata e P EE 7 1 7 1 Ordering data d uec d de e gelandet dde denis 7 3 ii PHOENIX CONTACT 7278_en_05 Lean Managed Switch 1 Lean Managed Switch Maximum availability 1 1 Properties The Lean Managed Switch LMS is an Ethernet switch which is suitable for industrial use The LMS has five six or eight ports and is available in various versions FL SWITCH LM 5TX E with five RJ45 ports FL SWITCH LM 8TX E with eight RJ45 ports FL
5. Identifies the components for which this entry contains information flComponentsName OID 1 3 6 1 4 1 4346 11 1 2 1 1 2 Syntax Display string Access Read Description Indicates the device designation of the component flComponentsDescr 7278 en 05 PHOENIXCONTACT 3 33 FL SWITCH LM 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 4 Syntax Display string Access Read Description Contains the URL of a Phoenix Contact website with additional information flComponentsOrderNumber OID 1 3 6 1 4 1 4346 11 1 2 1 1 5 Syntax Display string Access Read Description Contains the order number of the component flWorkDevice OID 1 3 6 1 4 1 4346 11 11 flWorkBasic OID 1 3 6 1 4 1 4346 11 11 1 flWorkBasicName OID 1 3 6 1 4 1 4346 11 11 1 1 Syntax Display string Access Read write Description Contains the device name corresponds to sysName from MIB2 which the user assigned to the device i Check this entry following a firmware update it may have been overwritten with default values flWorkBasicDescr OID 1 3 6 1 4 1 4346 11 11 1 2 Syntax Display string Access Read write Description Contains a short description corresponds to sysDescr from MIB2 which the user assigned to the device i Check this entry following a firmware update it may
6. T Tagged U Untagged None Logout Apply Figure 6 3 Static VLANs menu On this web page you can create static VLANs by assigning a VLAN ID and VLAN name The ports are then assigned to the individual VLANs by selecting the relevant VLAN and clicking on the character in the Ports 1 8 line that indicates the current port status Various options are selected by clicking on the status several times By clicking on toggle all all available ports in the relevant port group change their status The possible states are T Tagged Ports with Tagged status belong to the selected VLAN and packets are sent to this port with VLAN tag U Untagged Ports with Untagged status belong to the selected VLAN and packets are sent to this port without VLAN tag An Untagged port cannot belong to multiple VLANs otherwise there is no logical division except VLAN 1 z None Ports with None status are not integrated into the VLAN 7278 en 05 PHOENIX CONTACT 6 5 FL SWITCH LM 6 4 2 VLAN Port Configuration Port specific VLAN settings can be made on this web page VLAN Port Configuration r Port Number Port Name Port 1 Port VLAN ID E Port Priority i Ingress Filtering Disable O Enable The Port VLAN ID and Port Priority wil be assigned to any untagged data coming into this port Logout Port Configuration of port 1 General
7. the reliability accuracy or completeness of the information All information made available in the technical data is supplied without any accompanying guarantee whether expressly mentioned implied or tacitly assumed This information does not include any guarantees regarding quality does not describe any fair marketable quality and does not make any claims as to quality guarantees or guarantees regarding the suitability for a special purpose Phoenix Contact accepts no liability or responsibility for errors or omissions in the content of the technical documentation in particular data sheets installation instructions manuals etc The aforementioned limitations of liability and exemptions from liability do not apply in so far as liability must be assumed e g according to product liability law in cases of premeditation gross negligence on account of loss of life physical injury or damage to health or on account of the violation of important contractual obligations Claims for damages for the violation of important contractual obligations are however limited to contract typical predictable damages provided there is no premeditation or gross negligence or that liability is assumed on account of loss of life physical injury or damage to health This ruling does not imply a change in the burden of proof to the detriment of the user 7278 en 05 PHOENIX CONTACT FL SWITCH LM Internet Subsidiaries Published by
8. they determine among themselves which router performs the query function This depends on the IP addresses as the router with the lowest IP address continues to operate as the querier and all the other routers no longer send query messages If these routers do not receive a new query telegram within a specific period of time they themselves become queriers again If there are no routers in the network a suitably equipped switch can be used for the query function 7278 en 05 PHOENIX CONTACT 5 1 FL SWITCH LM IGMP snooping A switch which connects a multicast receiver with a router can read and evaluate IGMP information using the IGMP snooping method IGMP snooping translates IP multicast group addresses into multicast MAC addresses so that the IGMP function can also be detected by Layer 2 switches The switch enters the MAC addresses of the multicast receivers which were obtained from the IP addresses by IGMP snooping in its own multicast filter table Thus the switch filters multicast packets of known multicast groups and only forwards packets to those ports to which corresponding multicast receivers are connected IGMP snooping can only be used on Layer 2 if all termination devices send IGMP messages The IP stack of multicast compatible termination devices with applications linked to a multicast address automatically sends the relevant membership reports IGMP snooping operates independently of the Internet Group Management
9. you can set whether and for which events the alarm contact can be used Alarm Contact Use the alarm O Disable Enable open Event Monitoring Status Power Supply Disable Enable failure Link Monitoring Disable Enable ok To activate the link monitoring per port see web page Switch Station Ports Port Cfg Table information about detected link failures by the link monitoring feature you find in the column Link State at the web page Switch Station Ports Port Table Enter password Apply Figure 3 27 Alarm Contact web page Click on the Switch Station Ports Port Table link on the Alarm Contact page in WBM to access the port configuration page Here the ports to be monitored must be explicitly enabled for link monitoring Utilization menu Here the network capacity of each individual port is displayed as a bar graph The display is automatically updated according to the refresh interval Utilization 1 0 8 6 4 2 Por Jg DS NB System Up Time 2 h 42 min 8 sec End of last measurement 2 h 42 min 9 sec Measurement Interval 30 sec Figure 3 28 Utilization web page i Please note that the scale is spread according to the capacity utilization 7278 en 05 PHOENIXCONTACT 3 21 FL SWITCH LM The port capacity is calculated according to the set transmission parameters Examp
10. 0x31 flWorkFWInfoBootTime 1 3 6 1 4 1 4346 11 11 11 1 9 Octet string Read Contains the creation time of the boot loader version as a string Example for 14 10 20 0x31 0x34 0x31 0x30 0x32 0x30 fIWorkFWCtrl 1 3 6 1 4 1 4346 11 11 11 2 flWorkFWCtrlBasic 1 3 6 1 4 1 4346 11 11 11 2 1 3 42 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description flWorkFWCtrlReset 1 3 6 1 4 1 4346 11 11 11 2 1 1 Integer Read write With write access a reset can be executed with 2 With read access the value is always 1 fIWorkFWCtrlHttp 1 3 6 1 4 1 4346 11 11 11 2 1 6 Integer Read write This object can be used to disable the web server for the switch The change only takes effect after a restart Web server enabled 2 Web server disabled 1 flWorkFWCtrISNMP 1 3 6 1 4 1 4346 11 11 11 2 1 9 Integer Read write Here you can activate or deactivate the SNMP agent The changes take effect after a restart SNMP agent deactivated 1 SNMP agent activated 2 flWorkFWCirlTrapDest 1 3 6 1 4 1 4346 11 11 11 2 2 flWorkFWCirlTrapDestTable 1 3 6 1 4 1 4346 11 11 11 2 2 1 flWorkFWCtrlTrapDestEntry OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 Generates a table with the IP addresses of the trap managers flWorkFWCtrlTrapDestIndex OID Syntax Access Descrip
11. 1 1 M amp disable 2 1 amp 0 disable 3 a disable 4 1 amp 5 W enable 5 1 amp 0 disable 6 1 M 0 M disable Md ae C 1 0 v disable 8 1 amp 0 disable This table indicates what Port VLAN ID and Priority will be assigned to any untagged data coming in each port Logout Apply Figure 6 5 VLAN Port Configuration Table menu 6 5 Setting up static VLANs Security recommendation Instead of using VLAN 1 for management it is recommended that a new separate VLAN is created for management Make sure that the administrator has access to this VLAN Warnings displayed when setting up configuring VLANs indicate configuration errors port belongs to multiple VLANs The port assignment untagged and VID do not match In order to set up a VLAN the switches involved must be configured accordingly In the following example data traffic is to be enabled in VLAN 5 between termination devices A and B The type of termination device must be taken into consideration VLAN compatible processes tags or not VLAN compatible does not process tags In the example two types of termination device are take into consideration 7278 en 05 PHOENIX CONTACT 6 7 FL SWITCH LM Figure 6 6 feoee leeec Switch 2 Port 2 VID X Prio X participant VLAN 5 with Tags eeee leeoe
12. 1 Syntax Octet string 2 24 Access Read write For security reasons the response is always with read access Description A new password with a maximum of 12 characters can be assigned here Example Your new password is to be factory3 The password must be entered a second time for confirmation You enter factory3factory3 Your password for write access is now factory3 fIWorkFWCtrlPasswdSuccess OID 1 3 6 1 4 1 4346 11 11 11 2 3 2 Syntax Integer Access Read Description A message is displayed which informs you whether the last change of password was successful Not changed 1 Failed 2 Successful 3 flWorkFWCtrlLoginExpire OID 1 3 6 1 4 1 4346 11 11 11 2 3 3 Syntax Integer32 30 3600 Access Read write Description Here the number of seconds between two password entries is specified After the time has elapsed the password must be re entered if required Default 300 Range 30 3600 flWorkFWCirlUpdate OID 1 3 6 1 4 1 4346 11 11 11 2 4 flWorkFWCirlTfiplpAddr OID 1 3 6 1 4 1 4346 11 11 11 2 4 2 Syntax IP address Access Read write Description This object can be used to set the IP address of the TFTP server 7278 en 05 PHOENIXCONTACT 3 45 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description fIWorkFWCtrITftpFile 1 3 6 1 4 1 4346 11 11 11 2 4 3 Octet string 0 64 Read write This obj
13. 2 1 Store and forward siostre eiin enne 2 8 2 2 2 Multi address function 2 8 2 2 3 Eearning addresses entm eere eet etui eo Een ec s 2 8 2 2 4 Prioritization Quality of Service sseee 2 9 3 Configuration and diBglOslti6S ce cia eoru Gani a ved Penes or bd del ahem p ERR Perla cta 3 1 3 1 Factory Manager dasri a i iE ERI NL E ER RS 3 1 3 1 1 General FUNCION s 2c tr ties dane bee tee cs 3 1 3 1 2 Assigning IP parameters ssseeem eee 3 1 3 1 3 Configuration and diagnostics sseenne 3 3 3 2 Web based management WBM ssssseeeeneneennennneen nennen 3 4 3 2 1 General functions rdc accede tere tae ert rete ec ces 3 4 3 2 2 Requirements for the use of WBM seem 3 4 3 2 3 Functions information in WBM eene 3 5 3 2 4 Carrying out the firmware software update 3 9 3 8 Simple Network Management Protocol 3 23 3 8 1 General f nction eter dete e eet Rate E rt LESS 3 23 3 3 2 Schematic view of SNMP management 3 25 3 3 8 RFC1213 MIB MIB ll esee 3 27 7278 en 05 PHOENIX CONTACT i FL SWITCH LM 3 3 4 Bridge MIB 1 3 6 1 2 1 17 essere 3 29 3 3 5 Private MIBS 5 12 23
14. Edge Port Edge Port Priority 128 0 up to 240 in steps of 15 Admin Path Cost 1 up to 200 000 000 0 forces 0 default path cost Path Cost 200000 Forward Transitions 6 Designated Root 8000 00 A0 45 07 46 CO Designated Bridge 8000 00 40 45 08 55 F7 Designated Port 8001 Designated Cost 200000 Enter password Apply Port Configuration of port 1 General RSTP Figure 4 13 Specifying the root port and designated port Specifying the root switch priority The root port and designated port are always the ports with the lowest path costs If the costs are the same the priority is the decisive criterion If the priorities are also the same the port number is the decisive criterion Specify an appropriate combination of costs and priority on the RSTP Port Configuration page in WBM for the port specified as the root port or designated port Make sure that all the other network switches either have higher costs or a lower priority higher value 7278_en_05 PHOENIXCONTACT 4 15 FL SWITCH LM D 4 2 4 4 Disabling the Rapid Spanning Tree Protocol using the fast forwarding function NOTE One of the following requirements must be met so that the Rapid Spanning Tree Protocol can be disabled for a port Atermination device is connected to the port A Additional infrastructure components are connected to the port
15. R STP VLAN Figure 6 4 VLAN Port Configuration menu If Ingress Filtering is setto Enable the switch rejects data packets received at this port if the port is not a tagged member or untagged member of the VLAN with the VLAN ID contained in the tag of the packet Port Priority corresponding tag indicating the priority is added to packets without tags Port VLAN ID Assignment of received untagged packets to a VLAN The corresponding VLAN ID must be set for the ports that are untagged members of a VLAN see Example Communication between termination devices via VLAN on page 6 8 Only IDs of existing VLANs can be set as the port VLAN ID If a VLAN is deleted all port VLAN IDs that are set to this VLAN are reset to the default VLAN ID 1 6 4 3 VLAN Port Configuration Table This web page provides an overview of the main VLAN settings forthe 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 reach the port without VLAN tag 6 6 PHOENIX CONTACT 7278 en 05 Virtual Local Area Network VLAN eJ i VLAN Port Configuration Table Port VID Prio Ingress Filtering
16. SWITCH LM 3 3 42 dotidStp 1 3 6 1 2 1 17 2 dot1dStpProtocolSpecification dot1dStpPriority dot1dStpTimeSinceTopologyChange dotidStpTopChanges dotidStpDesignateRoot dotidStpRootCost dot1dStpRootPort dotidStpMaxAge dotidStpHelloTime dot1dStpHoldTime dot1 dStpForwardDelay dot1dStpBridgeMaxAge doti dStpBridgeHelloTime dot1 dStpBridgeForwardDelay dot1dStpPortTable 1 dotidStpPortEntry a dot1dStpPort dot1dStpPortPriority dot1dStpPortState dot1dStpPortEnable dot1dStpPortPathCost dot1dStpPortDesignatedRoot dot1dStpPortDesignatedCost dot1dStpPortDesignatedBridge dot1dStpPortDesignatedPort dot1dStpPortForwardTransitions dot1sStpPortProtocolMigration dot1dStpPortAdminEdgePort dot1dStpPortOperEdgePort dot1dStpPortAdminPointToPoint dot1dStpPortOperPointToPoint dotidStpPortAdminPathCost O14 o0 c ID LII 3 3 4 3 dotidTp 1 3 6 1 2 1 17 4 The dotidTp group contains bridge specific information 1 dot1dTpLearnedEntryDiscards 2 dotidTpAgingTime 3 dot1dTpFdbTable 1 dot1dTpFdbEntry 1 dotidTpFdbAddress 2 dot1dTpFdbPort 3 dotidTpFdbStatus 4 dotidTpPortTable dotidTpPortEntry 3 30 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics OID OID 1 dotidTpPort 2 dot1dTpPortMaxlInfo 3 dot1dTpPortInFrames 4 dot1dTpPortOutFrames 5 dotidTpPortInD
17. SWITCH LM 4TX FX E with four RJ45 ports and one FX port multi mode FL SWITCH LM 4TX FX ST E with four RJ45 ports and one FX port multi mode in ST format FL SWITCH LM 4TX FX SM E with four RJ45 ports and one FX port single mode FL SWITCH LM 4TX FX ST SM E with four RJ45 ports and one FX port single mode in ST format FL SWITCH LM 4TX 2FX ST E with four RJ45 ports and two FX ports multi mode in ST format FL SWITCH LM 4TX 2FX E with four RJ45 ports and two FX ports multi mode FL SWITCH LM 4TX 2FX SM E with four RJ45 ports and two FX ports single mode FL SWITCH LM 4TX 2FX SM ST E with four RJ45 ports and two FX ports single mode in ST format Figure 1 1 Some versions of the Lean Managed Switch Future proof networks for the highest possible requirements 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 7278 en 05 PHOENIX CONTACT 1 1 FL SWITCH LM 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 All information Clear information Two LEDs per port ensure that you always have sufficient local information A web server and an SNMP agent are provided f
18. Tagged U Untagged Non Member This table indicates out of which ports each VLAN s data is to be sent using configuration data entered manually web page Static VLANS Figure 6 2 Current VLANs web page When the maximum number of created VLANs static and or dynamic is reached the following text appears below the key for the member states The switch supports only 8 VLANs Further VLANs will be refused VLAN 1 is always created statically and all ports are added to it as untagged members 6 4 PHOENIX CONTACT 7278_en_05 Virtual Local Area Network VLAN 6 4 1 Static VLANs Static VLANs can be created on this web page Up to 7 new VLANs can be created VLAN 2 to VLAN 8 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 This means that in order to access the management interfaces you must either implement data traffic in tagged mode without VLAN tag where the switch is accessed via ports using the VLAN ID or you must use data traffic with a VLAN tag with ID 1 Static VLANs 0012 Test Select VLAN VLAN ID 24 2 up to 4094 VLAN Name Halle 1 Ports 1 8 Fo L toggle all
19. Test intensity 3 criterion A 7 2 PHOENIX CONTACT 7278_en_05 Technical data 7 1 Ordering data Products Description Lean Managed Switch with 5 RJ45 ports Lean Managed Switch with 8 RJ45 ports Lean Managed Switch with 4 RJ45 ports and two FX ports in SC D format for multi mode fibers Lean Managed Switch with 4 RJ45 ports and two FX ports in ST format for multi mode fibers Lean Managed Switch with 4 RJ45 ports and two FX ports in SC D format for single mode fibers Lean Managed Switch with 4 RJ45 ports and two FX ports in ST format for single mode fibers Lean Managed Switch with 4 RJ45 ports and one FX port in SC D format for multi mode fibers Lean Managed Switch with 4 RJ45 ports and one FX port in ST format for multi mode fibers Lean Managed Switch with 4 RJ45 ports and one FX port in SC D format for single mode fibers Lean Managed Switch with 4 RJ45 ports and one FX port in ST format for single mode fibers Accessories Description Configuration cable for connecting the switch to a PC RS 232 Universal end clamp Factory Manager startup diagnostics software Network monitoring with HMI SCADA systems Angled patch connector with two RJ45 CAT5e network connections Angled patch connector with eight RJ45 CAT5e network connections Angled patch connector with two RJ45 CAT6 network connections Angled patch connector with eight RJ45 CAT6 network connections Patch cable CAT6 pre assembled 0 3 m long Patch ca
20. and 4 Port status mapping must be calculated for port 1 3 and 4 Mapping binary 00001101 13 Set the flWorkNetPortLinkStatusMirrorMap object for port 5 to 13 OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 19 5 13 Then enable the function with the flSwitchCtrlLinkStatusMirroring object OID 1 3 6 1 4 1 4346 11 11 15 1 12 0 2 2 3 50 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics flSwitchlgmpTableErase OID 1 3 6 1 4 1 4346 15 11 11 3 3 Syntax Integer Access Read write Description This object controls the deletion of the multicast table If this object is set to 2 the switch immediately deletes its multicast table The switch then relearns and creates a new table The object is always set to 1 Default 1 Delete multicast table 7278_en_05 PHOENIXCONTACT 3 51 FL SWITCH LM 3 4 Management via local RS 232 communication interface 3 4 1 General function A local communication connection can be established to an external management station via the 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 i The reference potentials of the RS 232 interface and the supply voltage are not electrically isolated 3 4 1 1 Interface configuration Make
21. configuration Enter password Apply Figure 3 12 Web interface with the update parameters The following window appears after a few moments The device accomplishes a reboot now please wait Microsoft Internet Explorer The Firmware has been uploaded successfully Figure 3 13 Message following successful update e Close and restart WBM Firmware update can take several minutes You can monitor the download progress in the Factory Manager message window 25 50 75 100 Always wait approximately two minutes until all the LEDs have lit up and the device is available again after booting There are no assurances that all existing configuration data will be retained after a firmware update downgrade Therefore please check the configuration settings or reset the device to the settings default upon delivery NOTE A voltage failure during a firmware update results in the destruction of the firmware on the LMS An update via XMODEM is required see Starting with faulty software on page 3 56 Qi 3 10 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 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 case sensitive For security reasons the input fields do not display your password but instead eii is displayed Change Pass
22. fIWorkLinkFailure trap as long as the sending of traps is not disabled 6 ur CT ris oot ass s e e S e EE L al mum gll el LE AE 5 ei ej 687407052 Figure 4 10 Connection failure with RSTP ring detection 4 12 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree 4 2 4 Example topologies 4 2 4 1 Redundant coupling of network segments In this example two network segments are connected via redundant data paths Two STP components have ports in the Blocking state highlighted in gray This is sufficient to operate the network 1 s Bs E E UE T is a pean E Bl ave D E me afg E a E q eeee feeez
23. format Connection medium Cable impedance Transmission speed Ethernet interface SC Number Connection format Wavelength Laser protection Minimum transmission length including 3 dB system reserve when using multi mode Maximum multi mode transmission power Minimum multi mode transmission power Lean Managed Ethernet Fast Ethernet Switch conforms to standard IEEE 802 3 Store and forward Class A 148 809 packets with 46 64 byte packet size 8127 packets with 1500 1518 byte packet size For 1023 MAC addresses Version 1 and 2 SNMPv2 MIB RSTP MIB and private SNMP objects from Phoenix Contact 45 mm x 99 mm x 112 mm 40 C to 70 C 40 C to 85 C IP20 DIN 40050 IEC 60529 Class 3 VDE 0106 IEC 60536 30 to 95 non condensing 30 to 95 non condensing 86 kPa to 108 kPa 1500 m above sea level 66 kPa to 108 kPa 3500 m above sea level Perpendicular to a standard DIN rail Snapped onto a grounded DIN rail via COMBICON optional 230 g typical Via COMBICON maximum conductor cross section 2 5 mm 24V DC 3 6 Vpp within the permissible voltage range 18 5 V DC to 30 5 V DC 170 mA typical 250 mA maximum 500 V DC for one minute Present 4 W typical 6 W maximum 8or4 8 pos RJ45 female connector on the switch Twisted pair cable with a conductor cross section of 0 14 mm to 0 22 mm 100 ohms 10 100 Mbps Oor2 SC duplex female connector on the switch 1300 nm Class 1 according to DIN EN 6
24. it to each dynamic multicast group fthe switch receives a multicast packet and is still able to create new dynamic multicast groups upper limit not reached and it has saved one or more ports via which it received queries the switch will 1 Create a new multicast group for this multicast address provided one does not already exist 2 Add the port via which it received the multicast packet and all query ports to this new group multicast groups created as described above are deleted in accordance with the timeout rules For example if no more membership reports are received if the associated port is deleted from the groups or if no port other than the ports receiving queries is a member of the group this group is deleted b The switch is the active querier in the network segment fthe switch receives a multicast packet and is still able to create new dynamic multicast groups upper limit not reached and it has saved one or more ports via which it received queries the switch will 1 Create a new multicast group for this multicast address provided one does not already exist 2 Add the port via which it received the multicast packet and all query ports to this new group multicast groups created as described above are deleted in accordance with the timeout rules For example if no more membership reports are received if the associated port is deleted from the groups or if no port other than the ports recei
25. node which is a host and provides application services has the value 241 2 7 1 72 sysORLastChange 1 3 6 1 2 1 1 8 TimeTicks Read Indicates the value of the sysUpTime during the last system modification 3 28 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 3 3 3 2 Interface group 1 3 6 1 2 1 2 The interface group contains information about device interfaces 2 interfaces 1 ifNumber 2 ifTable 1 if Entry 1 iflndex 2 ifDescr 3 ifType 4 ifMtu 5 ifSpeed 6 ifPhysAddress 7 ifAdminStatus 8 ifOperStatus 9 ifLastChange iflnOctets iflnUcastPkts iflnNUcastPkts iflnDiscards iflnErrors iflnUnknownProtos ifOutOctets ifOutUcastPkts ifOutNUcastPkts ifOutDiscards ifOutErrors ifOutQLen ifSpecific 0 1 2 3 4 5 6 7 8 9 1 1 1 1 4 1 1 4 4 1 20 21 22 Sa NA nS SO A Ee 3 3 4 Bridge MIB 1 3 6 1 2 1 17 3 3 4 1 dotidBase 1 3 6 1 2 1 17 1 The dot1dBase group contains bridge specific information 1 2 3 4 dot1dBaseBridgeAddress dot1dBaseNumPorts dot1dBasePortType dot1dBasePortTable dotidBasePortEntry 1 dot1dBasePort 2 dot1dBasePortlfindex 3 dot1dBasePortPortCircuit 4 dot1dBasePortDelayExceededDiscards 5 dot1 dBasePortMtuExceededDiscards SS Ss 7278 en 05 PHOENIXCONTACT 3 29 FL
26. qualified electricians or persons instructed by them who are familiar with applicable standards and other regulations regarding electrical engineering and in particular the relevant safety concepts Phoenix Contact accepts no liability for erroneous handling or damage to products from Phoenix Contact or third party products resulting from disregard of information contained in this manual Explanation of symbols used and signal words hazards Obey all safety messages that follow this symbol to avoid possible This is the safety alert symbol It is used to alert you to potential personal injury AN injury or death DANGER This indicates a hazardous situation which if not avoided will result in death or serious injury WARNING This indicates a hazardous situation which if not avoided could result in death or serious injury CAUTION This indicates a hazardous situation which if not avoided could result in minor or moderate injury The following types of messages provide information about possible property damage and general information concerning proper operation and ease of use NOTE This symbol and the accompanying text alerts the reader to a situation which may cause damage or malfunction to the device either hardware or software or surrounding property This symbol and the accompanying text provides additional information to the reader It is also used as to oth
27. 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 switch and the management station Load the configuration file on the switch Reset the switch Adjust the IP parameters Savethe configuration Save current configuration function The duplicated switch can now be operated in the network using the adjusted IP parameters 3 2 4 1 Switch Station Services 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 DHCP Server menu On this page activate deactivate the DHCP server and configure the settings accordingly DHCP Server Configuration DHCP Server Disable Enable Starting IP Address 192 168 10 10 Ending IP Address 19216810254 Subnet Mask 255 255 255 0 Default Gateway 192168101 DNS Server 192168102 Lease Time 1 Hou Figure 3 20 DHCP Server web page As a DHCP server the switch can use the Dynamic Host Configuration Protocol DHCP to assign the network configuration to the connected clients The IP address area of the DHCP server may include a maximum of 254 clients Starting Ending IP Address Specifies the area from which the DHCP server switch as
28. the flWorkNetlfParamSave object has been executed The flWorkNetlfParamAssignment object must be set to static 1 otherwise objects cannot be written flWorkNetlfParamSubnetmask 1 3 6 1 4 1 4346 11 11 4 1 3 IP address Read write Contains the current subnet mask of the LMS Changes only take effect once the flWorkNetlfParamSave object has been executed The flWorkNetlfParamAssignment object must be set to static 1 otherwise objects cannot be written flWorkNetlfParamGWIpAddress 1 3 6 1 4 1 4346 11 11 4 1 4 IP address Read write Contains the IP address of the current default gateway router of the LMS Changes only take effect once the fIWorkNetlfParamSave object has been executed The flWorkNetlfParamAssignment object must be set to static 1 otherwise objects cannot be written flWorkNetlfParamStatus 1 3 6 1 4 1 4346 11 11 4 1 5 Integer32 1 1024 Read Indicates whether the IP parameters have been modified but not saved No change 1 Address setting modified but not yet activated Address settings must be saved permanently using the fIWorkFWCtrlConfSave object 7278 en 05 PHOENIXCONTACT 3 37 FL SWITCH LM flWorkNetlfParamSave OID 1 3 6 1 4 1 4346 11 11 4 1 6 Syntax Integer Access Read write Description Provides the option of saving modified IP parameters or undoing the modifications Und
29. 0825 1 2001 11 6 4 km fiberglass with F G 50 125 0 7 dB km F1200 2 8 km fiberglass with F G 50 125 1 6 dB km F800 11 km fiberglass with F G 62 5 125 0 7 dB km F100 3 0 km fiberglass with F G 62 5 125 2 6 dB km F1000 14 dBm 20 dBm at 62 5 125 um 23 5 at 50 125 um 7278 en 05 PHOENIX CONTACT 7 1 FL SWITCH LM Interfaces continued Minimum multi mode receiver sensitivity Multi mode overrange Minimum transmission length including 3 dB system reserve when using single mode Maximum single mode transmission power Minimum single mode transmission power Minimum single mode receiver sensitivity Single mode overrange Transmission speed RS 232 communication interface Number Connection format Alarm contact Voltage Current carrying capacity Mechanical tests Shock test according to IEC 60068 2 27 Vibration resistance according to IEC 60068 2 6 Free fall according to IEC 60068 2 32 Conformance with EMC directives Developed according to IEC 61000 6 2 Noise emission according to EN 55022 1998 A1 2000 A2 2003 interference voltage Noise emission according to EN 55011 1998 A1 1999 A2 2002 electromagnetic interference Immunity to interference according to EN 61000 4 2 IEC 1000 4 2 ESD Contact discharge Air discharge Indirect discharge Noise immunity according to EN 61000 4 3 IEC 1000 4 3 electromagnetic fields Noise immunity according to EN 61000 4 4 IEC 1000 4 4 burst Data cables
30. 11 11 11 1 2 Octet string 6 Read Contains the firmware release as a string Example for beta 0x62 0x65 0x64 Ox61 fIWorkFWInfoDate 1 3 6 1 4 1 4346 11 11 11 1 3 Octet string 6 Read Contains the creation date of the firmware version as a string Example for 21 05 2001 0x32 0x31 0x30 0x35 0x30 0x31 fIWorkFWInfoTime 1 3 6 1 4 1 4346 11 11 11 1 4 Octet string Read Contains the creation time of the firmware version as a string Example for 14 10 20 0x31 0x34 0x31 0x30 0x32 0x30 flWorkFWInfoCopyright 1 3 6 1 4 1 4346 11 11 11 1 5 Display string Read Contains the owner of the firmware copyright Copyright by Phoenix Contact GmbH amp Co 2003 7278_en_05 PHOENIXCONTACT 3 41 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID OID flWorkFWInfoBootVersion 1 3 6 1 4 1 4346 11 11 11 1 6 Octet string Read Contains the version of the boot loader as a string Example for Version 2 65 0x32 0x2e 0x36 0x35 flWorkFWInfoBootState 1 3 6 1 4 1 4346 11 11 11 1 7 Octet string Read Contains the boot loader release as a string Example for beta 0x62 0x65 0x64 0x61 flWorkFWInfoBootDate 1 3 6 1 4 1 4346 11 11 11 1 8 Octet string Read Contains the creation date of the boot loader version as a string Example for 09 03 01 0x30 0x39 0x30 0x33 0x30
31. 278_en_05 PHOENIX CONTACT 6 1 FL SWITCH LM e e ie 6 2 1 Management VLAN ID The management of the switch is assigned to VLAN 1 by default upon delivery In addition all ports are assigned to VLAN 1 by default upon delivery This ensures that the network supported management functions can be accessed via all ports Make sure that the LM switch is always managed in a VLAN that you can also access VLAN ID 1 cannot be deleted and is thus always created on the switch If you delete the VLAN in which the LM switch 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 6 2 2 Changing the management VLAN ID 6 2 2 1 Configuration in transparent mode 1 In WBM enable the pages for VLAN configuration WBM User Interfaces Virtual LAN 2 Create the required VLANs on the Static VLANs web page 3 Onthe VLAN Port Cfg Table web page assign the ports for incoming packets to individual VLANs using the VLAN ID 4 Onthe IP Configuration web page the desired management VLAN ID can now be set 5 Onthe General VLAN Configuration web page set the switch to Tagging VLAN mode 6 Save the configuration on the General Configuration Configuration Management web page and restart the switch 6 2 2 2 Configuration in tagging mode usually used to ch
32. 4 1 4346 11 11 2 1 1 Generates a table containing information about this component flComponentsIndex OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 2 1 1 1 Integer32 1 1024 Read Identifies the components for which this entry contains information flWorkComponentsOID OID 1 3 6 1 4 1 4346 11 11 2 1 1 2 Syntax Object identifier Access Read Description Indicates the corresponding component in the flComponents group flWorkComponentsURL OID 1 3 6 1 4 1 4346 11 11 2 1 1 3 Syntax Display string Access Read Description Contains the IP address that can be used to access the web server for this device flWorkComponentsDevSign OID 1 3 6 1 4 1 4346 11 11 2 1 1 4 Syntax Integer 0 255 Access Read Description Contains the interface designation assigned by the manufacturer flWorkNet OID 1 3 6 1 4 1 4346 11 11 4 flWorkNetlfParameter OID 1 3 6 1 4 1 4346 11 11 4 1 flWorkNetlfParamPhyAddress OID 1 3 6 1 4 1 4346 11 11 4 1 1 Syntax MAC address Access Read Description Contains the MAC address of the switch 3 36 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description flWorkNetlfParamIPAddress 1 3 6 1 4 1 4346 11 11 4 1 2 IP address Read write Contains the current IP address of the LMS Changes only take effect once
33. 738 2891534 2891835 2891437 2891521 2891246 Pcs Pkt 10 10 10 10 10 10 10 20 20 20 20 20 20 20 20 20 12 12 12 12 12 12 12 12 1 20 7 4 PHOENIX CONTACT 7278_en_05
34. AUTOMATION F P re h B P k s E e L E User manual UM EN FL SWITCH LM Order No 2888851 Hardware and software for Lean Managed Switches OGD OO GD GD 0 GD OO OD 070006 INSPIRING INNOVATIONS AUTOMATION User manual Hardware and software for Lean Managed Switches 2011 09 01 Designation UMENFLSWITCHLM Revision 05 Order No 2888848 This user manual is valid for Designation Oder No FL SWITCH LM 8TX FL SWITCH LM 8TX E 2832632 2891466 FL SWITCH LM 4TX 2FX FL SWITCH LM 4TX 2FX E 2832658 2891660 FL SWITCH LM 4TX 2FX SM FL SWITCH LM 4TX 2FX SM E 2891916 2891864 FL SWITCH LM 5TX FL SWITCH LM 5TX E 2989527 2989336 FL SWITCH LM 4TX 2FX ST FL SWITCH LM 4TX 2FX ST E 2989132 2989831 FL SWITCH LM 4TX 2FX SM ST FL SWITCH LM 4TX 2FX SM ST E 2989239 2989938 FL SWITCH LM 4TX 1FX FL SWITCH LM 4TX 1FX E 2989624 2989433 FL SWITCH LM 4TXAFX ST FL SWITCH LM 4TXAFX ST E 2989721 2989530 FL SWITCH LM 4TX 1FX SM FL SWITCH LM 4TX 1FX SM E 2989828 2989637 FL SWITCH LM 4TX 1FX SM ST FL SWITCH LM 4TX 1FX SM ST E 2989925 2989734 7278 en 05 PHOENIX CONTACT FL SWITCH LM H o bbb Please observe the following notes In order to ensure the safe use of the product described you have to read and understand this manual The following notes provide information on how to use this manual User group of this manual The use of products described in this manual is oriented exclusively to
35. CAT6 PATCH 15 FL CAT6 PATCH 20 FL CAT5 PATCH 0 3 FL CAT5 PATCH 0 5 Order No 2989527 2989336 2832632 2891466 2832658 2891660 2989132 2989831 2891916 2891864 2989239 2989938 2989624 2989433 2989721 2989530 2989828 2989637 2989925 2989734 Order No 273061 1 080088 6 2831044 2832166 2891165 2891178 2891068 2891071 2891181 2891288 2891385 2891482 2891589 2891686 2891783 2891880 2891887 2891369 2891372 2891576 2832250 2832263 Pcs Pkt 10 10 10 10 10 10 10 10 10 10 10 7278 en 05 PHOENIX CONTACT 7 3 FL SWITCH LM Description continued Patch cable CAT5 pre assembled 1 0 m long Patch cable CAT5 pre assembled 1 5 m long Patch cable CAT5 pre assembled 2 0 m long Patch cable CAT5 pre assembled 3 0 m long Patch cable CAT5 pre assembled 5 0 m long Patch cable CAT5 pre assembled 7 5 m long Patch cable CAT5 pre assembled 10 0 m long Color coding for FL CAT5 6 PATCH black Color coding for FL CAT5 6 PATCH brown Color coding for FL CAT5 6 PATCH blue Color coding for FL CAT5 6 PATCH green Color coding for FL CAT5 6 PATCH gray Color coding for FL CAT5 6 PATCH red Color coding for FL CAT5 6 PATCH violet Color coding for FL CAT5 6 PATCH yellow Lockable security element for FL CAT5 6 PATCH Color coding for FL PATCH GUARD black Color coding for FL PATCH GUARD blue Color coding for FL PATCH
36. G XMODEM PROTOCOL ENTER TO CONTINUE BOOTING PxC LMS systemprompt gt Figure 3 37 Selection menu for faulty firmware 3 56 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics Press a to download the new software The following message then appears Phoenix Contact GmbH amp Co www phoenixcontact com ENTER c TO CONTINUE BOOTING PxC LMS systemprompt gt a XMODEM Receive Waiting for Sender gt Phoenix Contact Lean Managed Switch lt ENTER a TO DOWNLOAD SWITCH SOFTWARE USING XMODEM PROTOCOL Downloading firmware image with XMODEM over serial port Figure 3 38 ready The switch is now ready for the new firmware In HyperTerminal select Send File from the Transmission menu Ordner C Dateiname C Firmware S witch LMS_xx bin Durchsuchen Protokoll Xmodem Y Schlieben Abbrechen Figure 3 39 Xmodem Send File option Make sure that the protocol is set to Xmodem otherwise the transmission will fail 7278_en_05 PHOENIXCONTACT 3 57 FL SWITCH LM Senden C FirmwareSwitch LMS_xx bin Paket Fehlerpriifung ERC Wdh 0 Wdh gesamt o Letzter Fehler Date Ok von 337K Dauer bisher Restdauer Durchsatz cps bps Figure 3 40 File transfer with Xmodem Clicking Send starts the file transfer The following screen shows the progres
37. GUARD green Color coding for FL PATCH GUARD orange Color coding for FL PATCH GUARD red Color coding for FL PATCH GUARD turquoise Color coding for FL PATCH GUARD violet Color coding for FL PATCH GUARD yellow Key for FL PATCH GUARD Security element for FL CAT5 6 PATCH Order designation FL CAT5 PATCH 1 0 FL CAT5 PATCH 1 5 FL CAT5 PATCH 2 0 FL CAT5 PATCH 3 0 FL CAT5 PATCH 5 0 FL CAT5 PATCH 7 5 FL CAT5 PATCH 10 FL PATCH CCODE BK FL PATCH CCODE BN FL PATCH CCODE BU FL PATCH CCODE GN FL PATCH CCODE GY FL PATCH CCODE RD FL PATCH CCODE VT FL PATCH CCODE YE FL PATCH GUARD FL PATCH GUARD CCODE BK FL PATCH GUARD CCODE BU FL PATCH GUARD CCODE GN FL PATCH GUARD CCODE OG FL PATCH GUARD CCODE RD FL PATCH GUARD CCODE TQ FL PATCH GUARD CCODE VT FL PATCH GUARD CCODE YE FL PATCH GUARD KEY FL PATCH SAFE CLIP Phoenix Contact GmbH amp Co KG Flachsmarktstr 8 32825 Blomberg Germany eum 2 49 5235 3 00 49 5235 3 41200 www phoenixcontact com Worldwide locations www phoenixcontact com salesnetwork HOTLINE Should problems occur that cannot be resolved with the help of this documentation please contact our hotline a 49 5281 9 462888 factoryline service phoenixcontact com Order No 2832276 2832221 2832289 2832292 2832580 2832616 2832629 2891194 2891495 2891291 2891796 2891699 2891893 2891990 2891592 2891424 2891136 2891233 2891631 2891330 2891
38. HOENIX CONTACT 7278 en 05 Configuration and diagnostics Local Diagnostics menu This page describes the meaning of the diagnostic and status indicators Local Diagnostics Power Supply US1 Supply Voltage 1 green LED US2 Supply Voltage 2 green LED Green LED On Link Up Off Link Down Blink Send or Receive Activity Yellow LED On Full Duplex Mode Off Half Duplex Mode Blink Collision Detection Figure 3 6 Local Diagnostics web page Serial Port menu This page lists the transmission parameters for serial communication Serial Port Baud Rate 38400 Character Size 8 Parity None Stop Bits 1 Flow Control None Figure 3 7 Serial Port menu 7278 en 05 PHOENIX CONTACT 3 7 FL SWITCH LM System Information 3 2 3 3 IP Configuration menu General Configuration This page displays the set IP parameters and addressing mechanism To change the IP parameters via WBM Static assignment must be selected IP Configuration Current Addresses IP Address Subnet Mask Default Gateway 192 168 0 120 255 255 255 0 0 0 0 0 Please enter IP Address Subnet Mask and Gateway Address in dotted decimal notation e g 172 16 16 230 Type of the IP address assignment Enter password Figure 3 8 Static IP Configuration web page O BootP If you modify the IP address and or the other IP parameters via WBM once you click Apply you will no longer have access v
39. L SWITCH LM Structure of the ring ID Rule2 Atleast one active Spanning Tree component per loop An active Spanning Tree component supports the Spanning Tree Protocol sends receives and evaluates BPDUS and sets its ports to the relevant STP states Each loop in a network must have at least one active Spanning Tree component to disintegrate the loop Example 1 ID Root Eseded FJA EJ 4 gi leeee jeeoo ooo eooe mu B LII q 1 1 1 1 H 1 z Lai it agi ISP e fE La En i ir qt DJ Designated Port Li Root Port Figure 4 8 Example topology There are six loops in the example topology shown above Each of these loops contains active STP components e g device 4 and device 2 In this way all loops are broken by STP Rule3 No more than ten active Spanning Tree components in the topology when using Spanning Tree default settings The ability to disintegrate any topology to form a tree without loops requires a complex protocol that works with several variable timers These variable timers are dimensioned using the default values recommended by the IEEE stan
40. P snooping the switch passively listens in on the IGMP messages that are sent over the network and dynamically creates the appropriate groups The groups are not saved and will be lost during every power down or when the snooping function is switched off IGMP Snoop Aging IGMP snoop aging is the time period during which membership reports are expected If this time passes without new membership reports being received the associated port is deleted from the groups IGMP Query An LMS with activated query function actively sends queries at query intervals and evaluates the received reports The LMS only sends IGMP query reports if IGMP snooping is enabled and only in the management VLAN 7278_en_05 PHOENIX CONTACT 5 3 FL SWITCH LM IGMP Query IGMP Query Interval A switch with activated query function actively sends queries regarding the version selected under IGMP Query at the IGMP Query Interval and evaluates the received reports The switch only sends IGMP query reports if IGMP snooping is enabled and only in the management VLAN Extended Multicast Source Detection see 5 3 Multicast source detection on page 5 5 Forward unknown Multicasts to querier Select whether a group which forwards packets to the querier is created for unknown multicast packets Block unknown Multicasts at querier Select whether unknown multicast packets are to be blocked at the querier Query Port Configuration Auto Query Port FRD M
41. PHOENIX CONTACT 7278_en_05 Table of contents Table of contents 1 dean Managed Pact debe tb seca ues 1 1 1 1 grs 1 1 1 1 1 Front view operating elements slots of the LMS eer eee eere a a e bee pere eile 1 2 1 1 2 Dimensions of the EMS nseni inenen 1 3 1 1 3 Status and diagnostic indicators 1 4 1 1 4 Firmware versions and their functions seenen 1 4 1 2 Mounting remioval 5 eie dee mes 1 5 1 2 1 Mounting and removing the LMS see 1 5 1 2 2 Due epp 1 6 1 2 3 sinnn ei c lini ces a ee 1 6 1 3 Installing the Lean Managed 1 7 1 3 1 Connecting the supply voltage sseneeme 1 7 1 3 2 Alarm coritact ei 1 8 1 3 3 RS 232 interface for external management 1 9 1 3 4 Cir pee 1 9 2 StanuparndTunctionis cuni qva ex br bern ota eec an qu Ca ater A TERRE PET e skeet Cari ater ra 2 1 2 1 Cere C 2 1 2 1 1 Default upon delivery default settings 2 1 2 1 2 Assigning IP parameters sssee eee 2 1 2 1 3 Flowchart after a restart 2 6 2 2 Frame Switchirig reor air cn per eder de Dl ae se 2 8 2
42. Power supply Immunity to interference according to EN 61000 4 5 IEC 1000 4 5 surge Data cables Power supply Noise immunity according to EN 61000 4 6 IEC 1000 4 6 conducted Differences between this version and previous versions Rev 00 First version Rev 01 LM E switches added and functions of current firmware added Rev 02 Extended to include functions for the current firmware Rev 03 New device versions added Rev 04 Firmware 3 x added Rev 05 Firmware 3 40 added 31 dBm 14 dBm 36 km fiberglass with F G 9 125 0 36 dB km 32 km fiberglass with F G 9 125 0 4 dB km 26 km fiberglass with F G 9 125 0 5 dB km 8 dBm 15 dBm 31 dBm 7 dBm 100 Mbps 1 Mini DIN female connector on the switch 24V DC 100 mA maximum Operation 25g 11 ms period half sine shock pulse Storage transport 50g 11 ms period half sine shock pulse Operation storage transport 5g 150 Hz criterion 3 1m Class A industrial applications Class A industrial applications Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 3 criterion B Test intensity 2 criterion B Requirements according to DIN EN 61000 6 2 Test intensity 3 criterion A Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 3 criterion B Requirements according to DIN EN 61000 6 2 Test intensity 2 criterion B Test intensity 1 criterion B Requirements according to DIN EN 61000 6 2
43. Protocol IGMP 5 2 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 5 2 PHOENIX CONTACT 7278 en 05 Multicast filtering 5 2 1 2 General Multicast Configuration web page This web page provides global settings for multicast support Here IGMP snooping can be activated and an aging time can be specified for IGMP snooping information General Multicast Configuration IGMP Snooping Disable f Enable IGMP Snoop Aging 00 s 30s up to 3600s Disable IGMP Query Version 1 f Version 2 IGMP Query Interval 120 s 10s up to 3600s Extended Multicast Source detection Fwd unkn MCs to querier C Disable Enable Block unkn MCs at querier Disable C Enable Query Port Configuration Auto Query Port FRD MRP C Disable Enable Static Query Ports Poste Enter password Apply Clear auto detected Query Ports Enter password Clear Figure 5 1 General Multicast Configuration web page Please note that the switch supports 50 multicast groups at any given time IGMP Snooping In IGM
44. RP Activates the automatic selection of additional query ports by means of fast ring detection and or Redundant ports are thereby automatically integrated in every multicast group In the case of redundancy switch over the multicast packets are not blocked because the ports required are already members of the groups Ifthis function is activated the multicast tables are not deleted on redundancy switch over Deletion of the multicast tables is triggered when the auto query ports are deactivated in order to force a new multicast group learning process in the event of redundancy switch over Static Query Ports Select the ports that are static query ports Clear auto detected Query Ports Deletion of the ports automatically assigned to the groups 5 4 PHOENIX CONTACT 7278 en 05 Multicast filtering 5 3 Multicast source detection Multicast source detection can be used to create dynamic multicast groups without the multicast receiver membership report sender in the network being active 5 3 1 Properties of multicast source detection The following properties apply if IGMP snooping has previously been activated globally a The switch is not the IGMP querier in the network segment because the querier function is disabled or another device has assumed the querier role fthe switch receives an IGMP query packet it will save the port via which it received the packet for the IGMP query time and add
45. SWITCH LM 2 1 3 Flowchart after a restart 2 1 3 1 Loading the configuration data System start Data in Flash valid Yes Load default values Load data from Flash Boot process completed No C Save data Figure 2 3 Flowchart Loading the configuration data 2 6 PHOENIX CONTACT 7278 en 05 Startup and functions 2 1 3 2 Assigning IP parameters Startup Yes Assignment of IP parameters via V 24 RS 232 i Assignment of IP parameters via BootP IP parameters received from BootP server Three requests remain unanswered Is there a valid local IP address Entry of IP parameters as local configuration Start with local configuration data as long as valid data is available m 72780013 Startup completed Figure 2 4 Flowchart Assigning IP parameters 7278 en 05 PHOENIX CONTACT 2 7 FL SWITCH LM 2 2 Frame switching The Managed Switch operates in store and forward mode When receiving a data packet the switch analyzes the source and destination addresses The switch stores up to 1023 MAC addresses with an aging time of 48 seconds in its address table 2 2 1 Store and forward All data telegrams that are received by the switch are saved and their validity is checked Invalid or faulty data packets gt 1522 bytes or CRC errors and fragment
46. 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 Third party products are always named without reference to patent rights The existence of such rights shall not be excluded How to contact us Up to date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at www phoenixcontact com Make sure you always use the latest documentation It can be downloaded at www phoenixcontact net catalog If there are any problems that cannot be solved using the documentation please contact your Phoenix Contact subsidiary Subsidiary contact information is available at www phoenixcontact com PHOENIX CONTACT GmbH amp Co KG PHOENIX CONTACT FlachsmarktstraBe 8 P O Box 4100 32825 Blomberg Harrisburg PA 17111 0100 GERMANY USA Phone 49 0 52 35 3 00 Phone 1 717 944 1300 Fax 49 0 52 35 3 4 12 00 Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals please send your comments to tecdoc phoenixcontact com
47. TE Only create the meshed topology after activating RSTP 4 2 1 Enabling RSTP on all switches involved RSTP can be activated via web based management via the SNMP interface or via the serial interface NOTE While learning the network topology the switch temporarily does not participate in network communication 4 2 1 1 Enabling using web based management Start web based management for the switches e g using Factory Manager switch to the General Configuration menu then the User Interfaces page Activate the Rapid Spanning Tree function under Redundancy and confirm by entering your password User Interfaces Web Server Disable 9 Enable SNMP Agent O Disable Enable Be sure to have access after changing Web Server SNMP Agent to disable Web pages Redundancy O Disable Rapid Spanning Tree Enabling the module Rapid Spanning Tree you get additionalweb pages to Figure 4 2 User Interfaces menu The previously created configuration is lost if No redundancy is selected in the WBM menu following RSTP configuration 4 2 PHOENIX CONTACT 7278_en_05 Rapid Spanning Tree Now switch to the RSTP General menu Here you will find various information about the Rapid Spanning Tree configuration RSTP General Rapid Spanning Tree Status This bridge is the root bridge System Up Time 1 days 18 hours 36 minutes 9 seconds Last Topo
48. The corresponding network segment does not contain any loops Additional infrastructure components are connected to the port forming a Rapid Spanning Tree of their own No additional redundant connections to this network segment are permitted 4 2 4 5 Modifying the protocol timers NOTE Modifying the protocol timers may result in unstable networks It may be necessary to modify the protocol timers if e g there are more than ten active Rapid Spanning Tree components in a single network You can also try to reduce the reconfiguration times by modifying the timers However care should be taken in order to prevent unstable networks Please note that the protocol times are specified by the root switch and that they are distributed to all devices via BPDU It is therefore only necessary to modify the values in the root switch If the root switch fails the timer values of another active RSTP switch i e the new root switch will be valid for the entire network segment Please remember this during component configuration Specifying the timer values Maximum number of active Rapid Spanning Tree components along the path beginning at the root switch please refer to the following two example illustrations MaxAge 2 Hello Time 1 2 Forward Delay 1 s gt MaxAge 22 x Hello Time 1 s The value MaxAge 2 Hello Time for a ring topology corresponds to the maximum number of components with a
49. XCONTACT 3 49 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description flSwitchCtrlLinkStatusMirroring 1 3 6 1 4 1 4346 15 11 11 1 12 Integer Read write The Port Link Status Mirroring function can be used to mirror the link status of a port to one or more other ports The function can then be activated and configured via SNMP as the function is deactivated by default upon delivery If the function is enabled when the switch is started it is only activated once the switch has been fully booted Deactivated default 1 Activated 2 The flSwitchControlLinkStatusMirroring object enables disables the Port Link Status Mirroring function The flWorkNetPortLinkStatusMirrorMap object writes the bit mask of the mirrored ports where bit O stands for port 1 bit 1 for port 2 etc If the bit equals 1 this port mirrors the master port The object is assigned 0 by default flWorkNetPortLinkStatusMirrorMap 1 3 6 1 4 1 4346 11 11 4 2 2 1 19 X Integer32 0 255 Read write X The port number of the master port to be mirrored Example 1 The status of port 6 should be mirrored to port 1 Set the flWorkNetPortLinkStatusMirrorMap object for port 6 to 1 OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 19 6 1 Then enable the function with the flSwitchCtrlLinkStatusMirroring object 2 OID 1 3 6 1 4 1 4346 11 11 15 1 12 0 2 2 Example 2 The status of port 5 should be mirrored to port 1 3
50. all object classes If an unsupported object class is requested not supported is generated If an attempt is made to modify an unsupported object class the message badValue is generated 3 26 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description 3 3 3 RFC1213 MIB II 3 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 2 sysObjectlD 3 sysUpTime 4 sysContact 5 sysName 6 sysLocation 7 syswitch sta 8 sysORLastChange sysDescr 1 3 6 1 2 1 1 1 0 Octet string size 0 255 Read A textual description of the entry The value should contain the full name and version number of Type of system hardware Operation system software Network software The description may only consist of ASCII characters that can be printed sysObjectID 1 3 6 1 2 1 1 2 0 Object identifier Read The authorization identification for the manufacturer of the network management subsystem which is integrated in this device This value is located in the SMI enterprises subtree 1 3 6 1 4 1 and describes which type of device is being managed For
51. ange the management VLAN ID in the event of an existing VLAN configuration 1 Connect the PC directly to the switch to be configured via a port A whose VLAN ID is setto 1 2 Update the firmware to Version 3 30 or later and restart the switch 3 Place another port B in the desired management VLAN Port B must be an untagged member of the desired management VLAN Set the corresponding port VLAN ID if necessary 4 Setthe desired VLAN ID as the management VLAN 5 Connect your PC to the switch via port B and save the configuration 6 2 PHOENIX CONTACT 7278 en 05 Virtual Local Area Network VLAN Transparent Tagging ie 65 6 3 General VLAN Configuration Basic settings for VLAN operation can be made on the Switch Station VLAN General VLAN Configuration web page In Transparent mode the switch processes the incoming data packets as described in the Frame switching section see Section 2 2 on page 2 8 Neither the structure nor the contents of the data packets is changed The information about VLAN assignment from a tag that may be contained in the data packet is ignored 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 outp
52. anner BootP Server Trap Receiver TFTP Server 7 Figure 3 1 Messages from the LMS in Factory Manager Right click on one of the LMS 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 Section Assigning IP parameters on page 3 1 Neues Gerat 2 Beschreibung Name EthemetG erat Ethernet Device X TCPAP IP Adresse 192 168 002 100 Subnetz Maske 255 255 255 0 Default Gateway 0 0 0 0 Abbrechen Figure 3 2 Input mask for IP parameters Make sure that the assignment of IP parameters via BootP is also activated 3 2 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics C 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 LMS After a restart the LMS resends the BootP requests and receives the corresponding BootP reply from Factory Manager Once the boot process has been completed the LMS is indicated as available If the LMS is still indicated as unavailable check your network card settings Please note that both devices must be located in the same network subnetwork If Factory Manager receives the BootP requests this does not mean that the devices are located in the same subnetwork as the BootP requests are sent as a broadcas
53. ansmission mode is set to a fixed value the autocrossing function is disabled flWorkNetPortlflndex OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 11 Syntax Integer32 0 1024 Access Read Description Specifies the index of the port according to IEEE 802 3ad 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 4346 11 11 4 2 2 1 14 Syntax Octet string Access Read Description Specifies the name of the module flWorkNetPortInterfaceName OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 15 Syntax Octet string Access Read Description Specifies the name of the interface flWorkNetPortStpMode OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 18 Syntax Integer Access Read Description Specifies the port mode during redundancy operation Spanning Tree 1 Rapid Spanning Tree 3 40 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics OID OID OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description flWorkFirmware 1 3 6 1 4 1 4346 11 11 11 flWorkFWInfo 1 3 6 1 4 1 4346 11 11 11 1 flWorkFWInfoVersion 1 3 6 1 4 1 4346 11 11 11 1 1 Octet string Read Contains the firmware version as a string Example for Version 3 97 0x33 0x2e 0x39 0x37 flWorkFWiInfoState 1 3 6 1 4 1 4346
54. ate Requirements The device must have valid IP parameters so that the firmware can be updated A functional Factory Manager or another TFTP server are also required www phoenixcontact net download n A suitable version of Factory Manager can be downloaded at Proceed as follows to update the software e Save the desired firmware software in the download directory of your TFTP server If using Factory Manager the path for standard installation is as follows C Program Files Phoenix Contact Factory Manager Wersion 2 3 download e Start Factory Manager and check whether the TFTP server is activated TFTP Server Figure 3 11 Factory Manager with activated TFTP server e Start WBM for the switch and call the Software Update page General Configuration Software Update e Enter the IP address of the computer on which Factory Manager is installed in the TFTP Server IP Address field Then enter the complete file name of the firmware file in the Downloadable File Name field but do not enter the path i e no drive no folder 7278 en 05 PHOENIXCONTACT 3 9 FL SWITCH LM e Enter the device password default private and click on Apply Software Update TFTP Server IP Address TFTP 1921680100 Downloadable File Name LM FW 2xx bin TFTP Update Status No information available To start the new software the device must be rebooted Note The device reboots with the last stored
55. ates the current RSTP state of the relevant port Possible states Forwarding The port is integrated in the active topology and forwards data Discarding The port does not take part in data transmission Learning The port does not take part in data transmission of the active topology however MAC addresses are learned 7278 en 05 PHOENIX CONTACT 4 5 FL SWITCH LM 4 2 1 2 RSTP Port Configuration Modifications of properties can result in complete reconfiguration of Rapid Spanning Tree This page displays the valid RSTP configuration settings for the selected port If termination devices or subnetworks are connected without RSTP or STP via a port it is recommended that the Admin Edge Port be set to Edge Port A link modification at this port will therefore not result in a topology modification 4 2 1 3 Switch port ID The validity of switches and ports is determined according to priority vectors Bridge identifier A switch ID consists of eight bytes as an unsigned integer value When comparing two Switch IDs the one with the lowest numeric value is of higher i e better priority The first two bytes contain the priority The last six bytes contain the MAC address and thus ensure the uniqueness of the switch ID in the event of identical priority values The switch with the lowest numerical switch ID becomes the root It is recommended that the root port and alternate port are specif
56. ble CAT6 pre assembled 0 5 m long Patch cable CAT6 pre assembled 1 0 m long Patch cable CAT6 pre assembled 1 5 m long Patch cable CAT6 pre assembled 2 0 m long Patch cable CAT6 pre assembled 3 0 m long Patch cable CAT6 pre assembled 5 0 m long Patch cable CAT6 pre assembled 7 5 m long Patch cable CAT6 pre assembled 10 m long Patch cab Patch cab Patch cab Patch cab le CAT6 pre assemb e CAT6 pre assemb le CAT6 pre assemb e 5 pre assemb led 12 5 m long ed 15 m long led 20 m long ed 0 3 m long Patch cable CAT5 pre assembled 0 5 m long Order designation FL SWITCH LM 5TX FL SWITCH LM 5TX E FL SWITCH LM 8TX FL SWITCH LM 8TX E FL SWITCH LM 4TX 2FX FL SWITCH LM 4TX 2FX E FL SWITCH LM 4TX 2FX ST FL SWITCH LM 4TX 2FX ST FL SWITCH LM 4TX 2FX SM FL SWITCH LM 4TX 2FX SM E FL SWITCH LM 4TX 2FX SM ST FL SWITCH LM 4TX 2FX SM ST E FL SWITCH LM 4TXAFX FL SWITCH LM 4TXAFX E FL SWITCH LM 4TXAFX ST FL SWITCH LM 4TX 1FX ST E FL SWITCH LM 4TXAFX SM FL SWITCH LM 4TXAFX SM FL SWITCH LM 4TXAFX SM ST FL SWITCH LM 4TX 1FX SM ST E Order designation PRG CAB MINI DIN E NS 35 N FL SWT FL SNMP OPC SERVER FL PF 2 CAT5E FL PF 8TX CAT5E FL PF 2TX CAT 6 FL PF 8TX CAT 6 FL CAT6 PATCH 0 3 FL CAT6 PATCH 0 5 FL CAT6 PATCH 1 0 FL CAT6 PATCH 1 5 FL CAT6 PATCH 2 0 FL CAT6 PATCH 3 0 FL CAT6 PATCH 5 0 FL CAT6 PATCH 7 5 FL CAT6 PATCH 10 FL CAT6 PATCH 12 5 FL
57. ced at the switch timer based detection is activated which may result in longer switch over times Forshort switch over times structure your network in such a way that a maximum of seven switches are located in a cascade up to the root switch The switch over times can range from 2 to 8 s Use priority assignment to specify a central switch as the root tis also recommended to assign a switch as the backup root Forshort switch over times all switches should support the Rapid Spanning Tree Protocol 4 3 Large Tree support 4 3 1 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 4 14 on page 4 17 and Figure 4 15 on page 4 17 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 The Large Tree support option could provide an RSTP ring topology with up to 57 devices When using Large Tree support please note the following Inthe 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 f RSTP is to be activated as the redundancy mechanism in an existing network with more than seven switches along the relevant path then the Large Tree
58. ctive Rapid Spanning Tree 4 16 PHOENIX CONTACT 7278_en_05 Rapid Spanning Tree Peeeleeee 72780011 Inactive connection Relevant path for setting the timer values Figure 4 14 Example 1 for the relevant path DO0000000 Inactive connection Active connection Relevant path for setting the timer values i milli S ee pepe i e 1 i 72780012 Figure 4 15 Example 2 for the relevant path 7278_en_05 PHOENIXCONTACT 4 17 FL SWITCH LM 4 2 4 6 Reconfiguration times The reconfiguration time for a Rapid Spanning Tree depends on the timer values for MaxAge and Forward Delay The minimum reconfiguration time is 2 x Forward Delay The maximum reconfiguration time is 2 x Forward Delay MaxAge For the values recommended by the IEEE standard t
59. d Ri 1 11 LE 0 10 SSS 67840015 Figure 1 7 Basic circuit diagram for the alarm contact In the event of non redundant power supply the switch indicates a supply voltage failure by opening the alarm contact This error message can be prevented by connecting the supply voltage to both terminals blocks in parallel as shown in Figure 1 6 or by deactivating redundant power supply monitoring in web based management 1 8 PHOENIX CONTACT 7278_en_05 Lean Managed Switch 1 3 3 RS 232 interface for external management The 6 pos Mini DIN female connector provides a serial interface to connect a local management station Use the PRG CAB MINI DIN programming cable Order No 2730611 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 Ordering data on page 7 3 Set the following transmission parameters RS 232 V 24 interface Bits per second 38400 Ciss RTS Data bit Parity None Stop bits 1 4 3 Flow control None 1 i 3 Ae 19 RxD lcd TxD Figure 1 8 Transmission parameters and assignment of the RS 232 interface 1 3 4 Grounding Grounding protects people and machines against hazardous voltages To avoid these dangers correct installation taking the local conditions into account is vital All Factoryline devices must be grounded s
60. d then selecting Apply or Save This undoes any changes to the configuration and resets all IP parameters to the settings default upon delivery see Section 2 1 1 on page 2 1 Resetting to the default settings also resets the password to private For security reasons we recommend you enter a new unique password 7278_en_05 PHOENIXCONTACT 3 55 FL SWITCH LM 3 4 3 Starting with faulty software If the software installed on the LMS firmware is faulty you can restore or update the firmware by means of an update Procedure Connect the switch to your PC via the serial RS 232 interface Make sure that your HyperTerminal is configured correctly see configuration on page 3 52 gt Phoenix Contact Lean Managed Switch lt Phoenix Contact GmbH amp Co KG www phoenixcontact com BIOS version X XX Press any key to stop booting 1 ENTER TO DOWNLOAD SWITCH SOFTWARE USING XMODEM PROTOCOL ENTER TO CONTINUE BOOTING PxC LMS systemprompt Figure 3 36 Screen displayed on HyperTerminal when booting If the device firmware is faulty the following message appears gt Phoenix Contact Lean Managed Switch lt Phoenix Contact GmbH amp Co KG www phoenixcontact com Press any key to stop booting 0 booting continues SOFTWARE IMAGE CORRUPTED YOU HAVE TO UPDATE THE SOFTWARE USING XMODEM PROTOCOL ENTER TO DOWNLOAD SWITCH SOFTWARE USIN
61. dard so that a topology with a maximum of ten active Spanning Tree components always results in a stable network 4 2 2 RSTP fast ring detection The RSTP Fast Ring Detection function can be activated on the RSTP Configuration web page 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 The ring ID consists of the port number of the blocking port and the MAC address of the corresponding switch Advantages of the ring ID Easierto identify redundant paths and locate blocking ports 4 10 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree Information in WBM Ring detection states a B Possible to check whether the desired topology corresponds to the actual topology RSTP Fast Ring Table Local ring ports Blocking port of ring No Status A B Port on Switch Ring ID Figure 4 9 RSTP ring table The following information is displayed on the web page and via SNMP Local ring ports These two ports of this switch belong to the ring that is listed ring ID Blocking port This port deliberately breaks the loop The following states can occur for ring detection Ready Ring detection has not yet been completed Ring detection has been complet
62. dti tme er er aes 3 31 3 4 Management via local RS 232 communication interface sse 3 52 3 4 1 General f nction cete ee teet e Fe ruere ented 3 52 3 4 2 User interface functions 3 53 3 4 3 Starting with faulty software sssssssseeenenme 3 56 Rapid Spaning rte dete ep specs ar a md Miu cp au rab Rex ce Packs 4 1 4 1 General function cicatrice ree e res Er Ere ne sa oe De 4 1 4 1 1 General function ssi tore con ihe noha cet rete c duse pedes 4 1 4 2 4 2 4 2 1 Enabling RSTP on all switches involved 4 2 4 2 2 RSTP fast ring detection essssseeene 4 10 4 2 3 Connection failure Example eee 4 11 4 2 4 Example topologies veient aa o a 4 13 4 2 5 Configuration notes for Rapid Spanning Tree 4 19 4 3 5 etu e roe eaa 4 19 4 3 1 Large Tre SUP ONE 4 19 4 3 2 Properties of Large Tree support 4 20 5 Multicast filtering te eh cope ios DR DR Pra Pa te ren ta Or Set tee VR 5 1 5 1 BASICS An ote e mee cte t i tt de doas 5 1 5 2 Dynamicmulticast groups 2 5 1 5 2 1 Internet Group Management Protocol IGMP
63. ect can be used to set the name of the firmware file for TFTP download flWorkFWCirlUpdateStatus 1 3 6 1 4 1 4346 11 11 11 2 4 4 Integer Read This object can be used to request the status of the firmware update Update successful Update not successful No update completed Unknown flWorkFWCtrlUpdateExecute 1 3 6 1 4 1 4346 11 11 11 2 4 5 Integer Read write This object can be used to trigger the firmware update No firmware update 1 Execute firmware update After a firmware update a reset is required to activate the new firmware flWorkFWCtrlRunningUpdate 1 3 6 1 4 1 4346 11 11 11 2 4 6 Integer Read 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 path file name Error 3 46 7278_ _05 Configuration and diagnostics flWorkFWCirlAutoUpdate OID 1 3 6 1 4 1 4346 11 11 11 2 4 7 Syntax Integer Access Read write Description This object can be used to trigger the firmware update with subsequent restart No firmware update 1 Execute firmware update 2 flWorkFWCirlConf OID 1 3 6 1 4 1 4346 11 11 11 2 5 flWorkFWCirlConfStatus OID 1 3 6 1 4 1 4346 11 11 11 2 5 1 Syntax Integer Access Read Description This object can be used to request the status of the active device configuration Configura
64. ed and quick switch over is possible in the event of an error Broken The ring is broken on this branch in the direction of the root switch Failed on Port A The ring was broken on this switch at port A In the event of a link failure in the ring the trapRstpRingFailure trap is sent If Broken 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 4 2 2 1 Fast ring detection switch over times With the maximum permissible number of 57 switches in a ring typical switch over times range from 100 to 500 ms with fast ring detection 4 2 3 Connection failure Example The following diagram illustrates an RSTP ring with six switches where switch 1 is the root The ring extends over port 1 and port 2 for each switch On switch 4 the loop is broken by a blocking port If a cable interrupt occurs at the point indicated by the star this produces the following entries on the RSTP Fast Ring Detection web page Switch 3 Failed on Port A 7278 en 05 PHOENIXCONTACT 4 11 FL SWITCH LM Switch 4 Broken In addition switch 3 would also generate the
65. ending on the network class a different number of bits are available both for the network address network ID and the user address host ID Network ID Host ID Class A 7 bits 24 bits Class B 14 bits 16 bits Class C 21 bits 8 bits Class D 28 bit multicast identifier Class E 27 bits reserved IP addresses can be represented in decimal or hexadecimal form In decimal notation bytes are separated by dots dotted decimal notation to show the logical grouping of the individual bytes The decimal points do not divide the address into a network and user address Only the value of the first bits before the first zero specifies the network class and the number of remaining bits in the address Possible address combinations 7 bits 24 bits Class A ED SS ol o LLL 0 0 0 0 127 255 255 255 0 NetworkIO _ Most 14 bits 16 bits Class B E 128 0 0 0 191 255 255 258 1 0 Nemorkio Hosio isst 21 bits 8 bits ass 19200 0 223255255255 1 1 0 28 bits Class D 224 0 0 0 239 255 255 255 Identifier for multicast group 27 bits Class E oa eee 240 0 0 0 247 255 255 255 1 1 1 1 0 Reserved for future applications Figure 2 2 Structure of IP addresses e 7278 en 05 PHOENIX CONTACT 2 FL SWITCH LM 2 1 2 3 Special IP addresses for special applications Certain IP addresses are reserved for special functions The following addresses sho
66. er sources of information manuals data sheets literature on the subject matter product etc PHOENIX CONTACT 7278 en 05 FL SWITCH LM General terms and conditions of use for technical documentation Phoenix Contact 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 The receipt of technical documentation in particular data sheets installation instructions manuals etc does not constitute any further duty on the part of Phoenix Contact to furnish information on alterations to products and or technical documentation Any other agreement shall only apply if expressly confirmed in writing by Phoenix Contact Please note that the supplied documentation is product specific documentation only and that you are responsible for checking the suitability and intended use of the products in your specific application in particular with regard to observing the applicable standards and regulations Although Phoenix Contact makes every effort to ensure that the information content is accurate up to date and state of the art technical inaccuracies and or printing errors in the information cannot be ruled out Phoenix Contact does not offer any guarantees as to
67. ers This ensures that for every possible tree structure that can be generated by R STP every VLAN can be accessed by every switch A typical configuration is illustrated in the following diagram Termination device in VLAN2 Termination device in VLAN2 Manual configuration VLAN2 port member Tagged VLAN2 port member Untagged Port VID VLAN2 Figure 6 7 Typical configuration for VLAN and R STP 7278 en 05 PHOENIXCONTACT 6 9 FL SWITCH LM 6 10 PHOENIX CONTACT 7278 en 05 Technical data 7 Technical data General data Function Switch principle PROFINET conformance Data throughput with 100 Mbps full duplex Address table SNMP Supported MIBs Housing dimensions width x height x depth Permissible operating temperature Permissible storage temperature Degree of protection Protection class Maximum humidity operation Maximum humidity storage transport Air pressure operation Air pressure storage Preferred mounting position Connection to protective earth ground Weight Supply voltage Connection Nominal value Permissible ripple Permissible voltage range Current consumption at Ug at nominal value Test voltage Protection against polarity reversal Power consumption Interfaces Ethernet interfaces in RJ45 format Number Connection
68. ery the packets with priorities from 0 to 3 are treated as low priority packets whereas packets with priorities from 4 to 7 are high priority Ethernet packets Processing rules The switch controller in the LMS forwards received packets to one of the receive queues according to the following decisions BPDU packets are always assigned to the high priority queue Packets with unknown unicast addresses are always assigned to the low priority queue Packets are assigned to the high priority queue if the priority from the VLAN prioritization tag is mapped to the high level default priority 4 to 7 Theinternal port priority high results in priority level 7 handling i e the basic settings for data packet assignment to the high priority queue are made Allresidual data is assigned to the low priority queue 2 2 4 2 Strict priority The switch supports two priority queues for adjusting the packet processing sequence traffic classes according to IEEE 802 1D The switches therefore support the QoS functions required by PROFINET RT and meet conformance class A Data telegrams that are received are assigned to these classes according to their priority which is specified in the VLAN prioritization tag Data packets with values between 0 and in the priority field are low priority default Data packets with values between 4 7 in the priority field are transmitted with high priority by the switc
69. es to form a meshed topology Having activated Rapid Spanning Tree for all switches you can create a meshed topology with redundant data paths Any data connections can now be created without taking loops into consideration Loops can even be added on purpose in order to create redundant links A data path between Rapid Spanning Tree switches can be Adirect connection connection via one or more additional switches that do not support Spanning Tree If Spanning Tree is not supported by all of the switches used the reconfiguration time for Spanning Tree is extended by the aging time of the switches without Spanning Tree support connection via one or more additional hubs that do not support Spanning Tree Furthermore a data path can also consist of a connection of a Spanning Tree switch to Atermination device network segment in which no loops may occur which consists of several infrastructure components hubs or switches without Spanning Tree support For the first three cases the following rules must be observed Rule 1 Spanning Tree transparency for all infrastructure components All infrastructure components used in your network that do not actively support Spanning Tree must be transparent for Spanning Tree messages BPDUs and must forward all BPDUs to all ports without modifying them When Spanning Tree is disabled the switch is transparent for BPDUs 7278 en 05 PHOENIX CONTACT 4 9 F
70. example if the manufacturer Phoenix Contact GmbH is assigned subtree 1 3 6 1 4 1 4346 it can then assign its bridge the identifier 1 3 6 1 4 1 4346 2 1 sysUpTime 1 3 6 1 2 1 1 3 0 TimeTicks Read The time in hundredths of seconds since the last network management unit reset 7278_en_05 PHOENIXCONTACT 3 27 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description sysContact 1 3 6 1 2 1 1 4 0 Octet string size 0 255 Read and write The textual identification of the contact person for these managed nodes and information on how this person can be contacted sysName 1 3 6 1 2 1 1 5 0 Octet string size 0 255 Read and write A name forthis node assigned by the administrator According to the agreement this is the fully qualifying name in the domain sysLocation 1 3 6 1 2 1 1 6 0 Octet string size 0 255 Read and write The physical location of this node e g Hall 1 3rd floor sysServices 1 3 6 1 2 1 1 7 0 Integer 0 127 Read This value indicates a number of services that this device offers It is the sum of several calculations For every layer of the OSI reference model there is a calculation in the form of 2 1 where L indicates the layer For example A node which primarily executes line routing functions has the value 2 3 1 4 A
71. h The LMS uses strict priority for transmitting data telegrams First all high priority data packets are transmitted Once these are forwarded low priority telegrams are transmitted This function prevents delays in high priority data transmission due to large volumes of low priority data traffic Low priority traffic is rejected when the memory or data channel is overloaded 2 10 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics 3 Configuration and diagnostics Lean Managed Switches offer 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 RS 232 interface only enables access to basic information However the RS 232 interface also enables firmware update via XMODEM in the event of faulty firmware Settings are not automatically saved permanently The active configuration can be saved permanently by selecting Save current configuration on the Configuration Management web page the SAVE button in the terminal interface or the fIWorkFWCtrlConfSave SNMP object 3 1 Factory Manager 3 1 1 General function The integration of the LMS in the Factory Manager provides support for configuration and management 3 1 2 Assigning IP parameters Only one of several options for assigning IP parameters us
72. have been overwritten with default values 3 34 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID flWorkBasicURL 1 3 6 1 4 1 4346 11 11 1 3 Display string Read Contains the URL of the device specific web page for WBM in the form of the currently set IP address flWorkBasicSerialNumber 1 3 6 1 4 1 4346 11 11 1 4 Octet string 12 Read Contains the serial number of the device flWorkBasicHWRevision 1 3 6 1 4 1 4346 11 11 1 5 Octet string 4 Read Contains the hardware version of the device flWorkBasicPowerStat 1 3 6 1 4 1 4346 11 11 1 6 Integer32 1 1024 Read Contains status information about the connected supply voltages Unknown 1 Supply voltage 1 OK 3 Supply voltage 2 OK 4 Supply voltage 1 and 2 OK 5 flWorkBasicCompMaxCapacity 1 3 6 1 4 1 4346 11 11 1 11 Integer 32 Read Contains the maximum number of interfaces that can be connected in theory flWorkBasicCompCapacity 1 3 6 1 4 1 4346 11 11 1 12 Integer 32 Read Contains the number of interfaces actually connected flWorkComponentsGroup 1 3 6 1 4 1 4346 11 11 2 7278 en 05 PHOENIXCONTACT 3 35 FL SWITCH LM flWorkComponentsEntry OID Syntax Access Description 1 3 6 1
73. he entire network broadcast storm may occur when using IP address 0 x x x 2 1 2 4 Subnet masks Routers and gateways divide large networks into several subnetworks The subnet mask is used to assign the IP addresses of individual devices to specific subnetworks The network part of an IP address is not modified by the subnet mask An extended IP address is generated from the user address and subnet mask Because the masked subnetwork is only recognized by the local computers this extended IP address appears as a standard IP address to all the other devices Structure of the subnet mask The subnet mask always contains the same number of bits as an IP address The subnet mask has the same number of bits in the same position set to one which is reflected in the IP address for the network class Example A Class A IP address contains a 1 byte network address and a 3 byte computer address Therefore the first byte of the subnet mask may only contain ones 2 4 PHOENIX CONTACT 7278 en 05 Startup and functions The remaining bits three bytes then contain the address of the subnetwork and the computer The extended IP address is created when the bits of the IP address and the bits of the subnet mask are ANDed Because the subnetwork is only recognized by local devices the corresponding IP address appears as a normal IP address to all the other devices Application If the ANDing of the address bits gives the local ne
74. he value for ten active STP switches along a path beginning with the root switch is between 30 s and 50 s Switch over time response to be expected for Rapid Spanning Tree Overview of the switch over time response to be expected for the maximum number of switches within a Spanning Tree segment MaxAge Hello Time Forward Delay Maximum number of Switch over active RSTP switches time 10s 1s 26s 5 225 205 15 211s 10 425 30s 1s 216s 15 62s 40s 1s 221s 20 82s 20s 2s 15 9 505 Bold italic Default 4 18 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree 4 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 a line 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 A link down or link up must be detected at the switch so that the RSTP switches can detect a line failure and a restored line more quickly Please take into consideration in particular paths where media converters are used If required media converters offer setting options to transmit the link status of the fiber optic side to the twisted pair side If a link down is not detected at the switch due to the cable interrupt between the media converters and if no link down is for
75. ia the IP address set in the browser SNMP Configuration menu This part of the table is used to display or modify user specific device data e g location device name or function SNMP Configuration System Information Name of Device Description Physical location Contact Trap Configuration First trap manager IP address Second trap manager IP Send traps FL SWITCH LM 8TX Lean Managed Switch Fab 3_3 2 _03 0 0 0 0 0 0 0 0 Disable O Enable Please enter IP addresses in dotted decimal notation e g 172 16 16 230 Enter password Figure 3 9 SNMP Configuration web page 3 8 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics Trap Configuration This part of the table is used to view or modify the IP addresses of the two trap receivers It is also used to activate deactivate the send traps function Software Update menu This page is used to view or modify the parameters for a software update and to trigger the update Software Update TFTP Server IP Address TFIP 0 0 0 0 Downloadable File Name TFTP Update Status No information available To start the new software the device must be rebooted Note The device reboots with the last stored configuration save here before Enter password Apply Figure 3 10 Software Update web page 3 2 4 Carrying out the firmware software upd
76. ied using the priority Port identifier The port ID consists of four bits for the port priority and twelve 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 4 6 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree FL SWITCH LM 4TXI2FX General Instructions Device Information C General Confiquration 2 Switch Station Services Q Ports 1 Diagnostics Rapid Spanning Tree E RSTP General E RSTP Config E RSTP Port Table RSTP Port Config E RSTP Fast Rings 3 Home Ethernet Ger t last update 13 42 00 RSTP Port Configuration Port Number 1 1 RSTP State forwarding Operational Edge Port Operating as an edge port Admin Edge Port O Non Edge Port Edge Port Priority 128 0 up to 240 in steps of 16 Admin Path Cost 1 up to 200 000 000 0 forces default path cast Path Cost 200000 Forward Transitions 6 Designated Root 8000 00 40 45 07 46 C0 Designated Bridge 8000 00 40 45 08 55 F7 Designated Port 8001 Designated Cost 200000 Enter password id Port Configuration of port 1 General RSTP Figure 4 6 RSTP Port Configuration web page Port Number Indicates the number of the po
77. ified but not Status of current configuration saved Save current configuration Enter password Set default upon delivery After setting the delivery status the device accomplishes reboot automatically Enter password Load the last stored configuration Enter password Figure 3 16 Configuration Management web page Possible states for Status of current configuration configuration has been modified but not saved Savingthe current configuration current configuration is equal to the saved one in the non volatile memory of the Switch current configuration was saved If the new configuration is not activated by a reset after a configuration download the Save current configuration command overwrites the previously loaded configuration and instead saves the active configuration of the LMS Set default upon delivery This option can be used to reset the switch to its default settings default upon delivery by entering a valid password Set default upon delivery After setting the delivery status the device accomplishes a reboot automatically Enter password Activate Figure 3 17 Set default upon delivery web page WBM can only be called using a valid IP address Once the switch has been reset to its default settings it has no valid IP address 7278 en 05 PHOENIXCONTACT 3 13 FL SWITCH LM Load the last stored co
78. ing Factory Manager is described here The IPAssign exe addressing tool which is available free of charge can be used to assign the IP parameters This program does not have to be installed as it is an executable exe file It can be downloaded at www phoenixcontact net download a Once you have established all the necessary connections and Factory Manager has been started restart the LMS Following the boot phase the LMS sends the BootP requests which are received by Factory Manager and displayed in the message window If you are operating other devices in the same network messages from these devices may also be displayed Messages from Phoenix Contact Factoryline components can be easily identified by their MAC address which starts with 00 A0 45 and is provided on the devices Please check the MAC address in the messages to ensure the correct device is addressed 7278 en 05 PHOENIXCONTACT 3 1 FL SWITCH LM Konfiguration Ansicht Ger amp Meldungen Extras Werkzeuge Lizenzierung Deh SS gt gt HS amp ome m QE im Si a s mz s EEG xt Robo Control ncf 12 5 2003 BootP Request von unbekanntem Ger amp t erhalten MAC Adresse 00 A0 45 00 60 87 Robo Control ncf 12 5 2003 BootP Request von unbekanntem Ger amp t erhalten MAC Adresse 00 A0 45 00 60 87 Meldungs Warteschlange Dr cken Sie F1 um die Hilfe aufzurufen Netzwerk Sc
79. ion specified It may also be useful to explicitly disable the Rapid Spanning Tree Protocol at ports that do not participate in Rapid Spanning Tree so as to benefit from the fast forwarding function The Rapid Spanning Tree Protocol must also be disabled at individual ports if two different network segments both using Rapid Spanning Tree are to be coupled via these ports without the two tree structures merging into a large Spanning Tree Specifying the root switch The root switch is assigned via the assignment of an appropriate priority for the Rapid 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 4 14 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree DERA FL SWITCH LM 4 2 General Instructions a Device Information General Configuration Switch Station Services C Ports 1 Diagnostics Rapid Spanning Tree E RSTP General B RSTP Config E RSTP Port Table E RSTP Port Config E RSTP Fast Rings 3 Home Ethernet Ger t last update 13 42 00 RSTP Port Configuration Port Number 1 Port Name Port 1 RSTP Part State forwarding Operational Edge Part Operating as an edge port Admin Edge Port O Non
80. ir own configuration message via the ports for which the switch itself is the designated switch The age of the information BPDU is increased by one second every time the information passes a switch Hello Time Specifies the time interval within which the root bridge regularly reports to the other bridges via BPDU 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 4 4 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree RSTP Port Table Ethernet Gerat last update 13 35 10 CONTACT RSTP Port Table Port Oper Edge Port RSTP State 1 edge port forwarding FL SWITCH LM 4TXI2FX General Instructions 2 no edge port discarding Device Information m 3 no edge port discardin General Configuration bs zd 3 switch Station 4 no edge port forwarding Services Ports 5 no edge port forwarding 1 Diagnostics ca E ME _ P 3 Rapid Spanning Tree 6 no edge port forwarding E RSTP General B RSTP Config RSTP Port Table RSTP Port Config RSTP Fast Rings 3 Home Figure 4 5 RSTP Port Table web page Oper Edge Port All ports that do not receive any RSTP BPDUs become edge ports i e ports that switch to the Forwarding state immediately after restart RSTP State Indic
81. 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 All further users must confirm each modification of the configuration with the password 3 4 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 3 2 3 Functions information in WBM The navigation tree provides direct access to the following four areas General Instructions Basic information about WBM Device Information General device information General Configuration General device configuration Switch Station Device specific configuration and diagnostics 7278 en 05 PHOENIX CONTACT 3 5 FL SWITCH LM 3 2 3 1 Z CONTACT FL SWITCH LM 8TX 2 General Instructions Information Sitemap Device Information General Configuration 1 Switch Station 2 Home Figure 3 4 General Instructions FL SWITCH LM 8TX Information last update 9 15 26 Navigate through the Web Based Management by selecting a link in this area or the menu to the left General Instructions This page and an overview about the structure of this webside Device Information Some general information about this Factory Line device General Configuration Password protected
82. iscards 3 3 5 Private MIBs The private MIBs for the LMS from Phoenix Contact can be found under object ID 1 3 6 1 4 1 4346 The LMS 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 LMS restart must be saved permanently using the fIWorkFWCtrlConfSave object MIB tree The private MIB from Phoenix Contact is integrated in the MIB tree as follows see red arrow MIB tree E internet directory G mgmt H E mib 2 E experimental G E private a enterprises phoenixContact H E pxeModules H E pxcGlobal 9 8 pxcFactoryLine 9 8 snmp 2 Figure 3 31 MIB tree 3 3 5 1 pxcModules OID 1 3 6 1 4 1 4346 1 flMSwitchMModule 1 3 6 1 4 1 4346 1 8 The object contains information about the manufacturer address phone number etc 3 3 5 2 pxcGlobal OID z 1 3 6 1 4 1 4346 2 pxcBasic 1 3 6 1 4 1 4346 2 1 7278 en 05 PHOENIXCONTACT 3 31 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID OID OID Syntax Access Description OID pxcBasicName 1 3 6 1 4 1 4346 2 1 1 Display string Read Contains the manufacturer s name Phoenix Contact GmbH amp Co KG pxcBasicDescr 1 3 6 1 4 1 4346 2 1 2 Displa
83. le A Source port is operated at 100 Mbps and reaches a capacity of 5 The destination port is operated at 10 Mbps Therefore with the same volume of data the destination port reaches a capacity of 5096 3 2 4 2 Rapid Spanning Tree For information about Rapid Spanning Tree please refer to Section 4 Rapid Spanning Tree 3 22 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 3 3 Simple Network Management Protocol SNMP 3 3 1 General function SNMP is a manufacturer independent standard for Ethernet management and defines commands for reading and writing error and status message information and formats 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 The agents are located inside switches bus terminal modules routers and other devices that support SNMP The task of the agents is to collect and provide data in the MIB The manager regularly requests and displays this information The devices can be configured by writing data from the manager to the MIB In the event of an emergency the agents can also send messages traps directly to the manager All configuration modifications which are to take effect after an LMS restart must be saved permanently using the fIWorkFWCtrlConfSave object SNMP interface All managed Factoryline com
84. logy Change 1 days 18 hours 36 minutes 3 seconds ago Topology Changes 4 Designated Root 8000 00 A0 45 00 94 1F Root Port 0 Root Cost O Hello Time 25 Forward Delay 15s Note This web page will be refreshed in 1 sec automatically change the interval at the web page Services Figure 4 3 RSTP General web page The web page displays the parameters with which the switch is currently operating 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 l e this port is not part of the active topology RSTP Configuration Itis sufficient to set the Rapid Spanning Tree status to Enable in orderto start RSTP using default settings Priority values can be specified for the switch The root and alternate ports can be specified via these priority values Only multiples of 4096 are permitted The desired value can simply be entered in the Priority field The value will be rounded automatically to the next multiple of 4096 Once you have confirmed the modification by entering your password the initialization mechanism is started Redu
85. ndant connections can now be created The Maximum Age of STP Information Hello Time and Forward Delay fields have the same meaning as for STP These values are used when this switch becomes a root The values currently used can be found under RSTP General 7278 en 05 PHOENIXCONTACT 4 3 FL SWITCH LM Ethernet Ger t last update 11 59 11 RSTP Configuration Rapid Spanning Tree Status O Disable Enable Large Tree Support Disable O Enable FL SWITCH LM 4 2 Fast Ring Detection Disable O Enable Speen Priority 32768 O up to 61440 in steps of 4096 Device Information TETS 3 This bridge uses the following parameter if this bridge is the root bridge General Confiqurati eneral Configuration E ua Bill 20 s up to 40s I Switch Station Services Hello Time 2 s 1s up to 10s G Ports Forward Delay 15 s 4s up to 305 Diagnostics ss Enter password Apply SJ Rapid Spanning Tree E RSTP General RSTP Config E RSTP Port Table E RSTP Port Confiq E RSTP Fast Rings Home Figure 4 4 RSTP Configuration web page Maximum Age of RSTP Information RSTP information BPDU is sent by the root switch at an age of 0 and at hello time intervals If a BPDU was received all other switches send the
86. nfiguration CZ This option can be used to reload the last configuration stored on either the device or the PC All modifications made to the configuration since it was last saved are lost Load the last stored configuration The device accomplishes a reboot to load the last stored configuration Enter password Load Figure 3 18 Load the last stored configuration web page File Transfer menu This option can be used to save your device configuration on a PC or to operate the switch using a stored configuration File Transfer TFTP server IP address TRIP File name Transfer direction O device to host O host to device After a successful file transfer from the host to the device the switch must be rebooted to activate the new configuration You find the Reboot function on the web page Switch Station Services Enter password Figure 3 19 File Transfer web page When a configuration is uploaded from the switch to a PC the last saved version is transmitted If you want to transmit the active configuration first save it again Save current configuration function When a configuration is downloaded from the PC to a switch the new configuration is only activated once the switch has been reset The use of a configuration file does not affect an existing old password 3 14 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics Reboot Device
87. ng additional functions Multicast filter mechanisms IGMP snooping and querier function Port mirroring Port statistics Link status via alarm contact MAC address clearing Firmware 2 13 offers the following additional functions Optimized IGMP function query port is not entered in GDA Optimized Rapid Spanning Tree Protocol RSTP RSTP function optimized in connection with fiberglass FX port 1 4 PHOENIX CONTACT 7278_en_05 Lean Managed Switch Firmware 3 03 offers the following additional functions Optimized Rapid Spanning Tree Protocol RSTP Optimized IGMP snooping and querier function extension Fast ring detection RSTP extension Large tree support BootP and IP parameter storage optimized Pingrequests 1500 bytes are answered Firmware 3 10 offers the following additional functions The following versions are supported FL SWITCH LM 5TX FL SWITCH LM 4TXAFX FL SWITCH LM 4TXAFX ST FL SWITCH LM 4TX 1FX SM FL SWITCH LM 4TXAFX SM ST FL SWITCH LM 4TX 2FX ST FL SWITCH LM 4TX 2FX SM ST Firmware 3 40 offers the following additional functions Savingand loading configurations Port mirroring link mirroring DHCP server Extended multicast filtering 1 1 4 2 For the following switch versions LM E Firmware 1 11 supports the following versions FLSWITCH LM 8TX E FLSWITCH LM 4TX 2FX E FLSWITCH LM 4TX 2FX SM E Firmware 3 40 additionally supports the follo
88. nsmission is reduced because each packet is only transmitted once 5 2 Dynamic multicast groups 5 2 1 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 announces its membership of a specific multicast group A router collects these membership reports and thus maintains the multicast groups of its subnetwork At regular intervals the router sends IGMP queries This prompts the devices with multicast receiver applications to send another membership report The IGMP Query function only transmits in the management VLAN and only stops if there is a better querier in the management VLAN The router enters the IP multicast group address from the report message in its routing table This means that frames with this IP multicast group address in the destination address field are only transferred according to the routing table Devices that are no longer members of a multicast group log out with a leave message IGMP Version 2 or later and no longer send report messages The router also removes the routing table entry if it does not receive a report message within a specific time aging time If several routers with active IGMP query function are connected to the network
89. o modification Activate modification i Address settings must be saved permanently using the fIWorkFWCtrlConfSave object flWorkNetlfParamAssignment OID 1 3 6 1 4 1 4346 11 11 4 1 7 Syntax Integer Access Read write Description Provides the option of modifying the assignment mechanism for IP parameters Takes effect after an LMS restart Static IP address Assignment via BootP default i Modifications to the assignment mechanism also affect the management functions via the web interface and via RS 232 H Address settings must be saved permanently using the fIWorkFWCtrlConfSave object flWorkNetPort OID 1 3 6 1 4 1 4346 11 11 4 2 flWorkNetPortCapacity OID 1 3 6 1 4 1 4346 11 11 4 2 1 Syntax Integer32 1 1024 Access Read Description Contains the number of available ports depending on the configuration of the LMS flWorkNetPortTable OID 1 3 6 1 4 1 4346 11 11 4 2 2 flWorkNetPortEntry OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 Description Generates a table with a detailed description of the port configuration flWorkNetPortlndex OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 1 Syntax Integer32 1 1024 Access Read 3 38 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 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 flWorkNetP
90. o that any possible interference is shielded from the data telegram and discharged to ground potential A conductor of at least 2 5 mm must be used for grounding When mounting on a DIN rail the DIN rail must be connected to protective earth ground using grounding terminal blocks The module is connected to protective earth ground via a metal clip on the rear of the housing Option In an environment particularly prone to EMI noise immunity can be increased by an additional low impedance connection to functional earth ground via terminal block 7 Section Assignment of the COMBICON connector on page 1 7 7278 en 05 PHOENIX CONTACT 1 9 FL SWITCH LM 1 10 PHOENIX CONTACT 7278 en 05 Startup and functions 2 Startup and functions D NOTE The IGMP snooping function is activated by default upon delivery for E versions For other versions it can be activated as necessary in WBM 2 1 Basic settings The basic Ethernet functions do not have to be configured and are available when the supply voltage is switched on 2 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 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 0 Gateway 0 0 0 0 Boo
91. of the switch a wide range of information about the device itself the set parameters and the operating state can be viewed Modifications can only be made by entering the valid password By default upon delivery the password is private For security reasons we recommend you enter a new unique password 3 2 2 Requirements for the use of WBM As the web server operates using the Hyper Text Transfer Protocol a standard browser can be used Access is via the URL http IP address of the device Example http 172 16 29 112 For full operation of the web pages the browser must support JavaScript 1 2 and Cascading Style Sheets Level 1 We recommend the use of Microsoft Internet Explorer 6 0 WBM can only be called using a valid IP address By default upon delivery the switch has no valid IP address Settings are not automatically saved permanently The active configuration can be saved permanently by selecting Save current configuration on the Configuration Management web page 3 2 2 1 Structure of the web pages The web pages are divided into four areas Device type and device logo Device name assigned by the user and loading time to prevent mix ups Navigation tree on the left hand side nformation tables which contain current device information during runtime 3 2 2 2 Password concept After having entered the valid password no further entry of the password
92. or diagnostics maintenance and configuration via the network A terminal access point can be used for local operation Features and fields of application of the LMS 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 speed for the RJ45 ports Increased availability through the use of redundant transmission paths in various topologies and meshed structures as a result of RSTP The switch can be configured using web based management SNMP or locally via an RS 232 interface 1 1 1 Front view operating elements slots of the LMS Supply voltage connection Alarm contact functional earth ground optional connection Mini DIN V 24 RS 232 Snap on mechanism diagnostic indicators supply Port numbering diagnostic indicators Ethernet Ethernet ports MAC address Figure 1 2 Front view operating elements slots of the LMS 1 2 PHOENIX CONTACT 7278 en 05 Lean Managed Switch Diagnostic status indicators Important information is displayed directly on the device Each port has two LEDs The top LED always indicates LNK ACT the bottom LED indicates the data transmission speed Diagnostic and status LEDs Two status and diagno
93. ort number Designated Cost Indicates the path cost of this segment to the root switch As with STP a device is also selected as the root for RSTP and every port is assigned a role according to its participation within the topology Port states The number of port states is also reduced in RSTP Only the Forwarding Discarding and Learning states are still available if the network is operated in mixed operation of STP and RSTP Due to the fast switch over times of RSTP frames may be duplicated and the order of frames may be changed 4 8 PHOENIX CONTACT 7278 en 05 Rapid Spanning Tree 4 21 4 Enabling via serial interface Establish a connection to the switch as described in Section Management via local RS 232 communication interface on page 3 52 Set Rapid Spanning Tree Enabled on the following page in the Redundancy field and select Save _ _ O 101 Basic Switch Configuration FL SWITCH LMS 4 MAC Address 66 AG 45 66 62 6F bi R RR 0 X IP Address i 72 16 2 101 1 X R RR Subnet Mask 1255 255 0 0 1 X x X RRRRK Default Gateway 6 6 6 6 1 RRRRK IP Parameter Assignment lt BootP gt Redundancy lt Rapid Spanning Tree Enabled Web Interface lt Enable gt SNMP Interface lt Enable gt Reset lt No reset LOGOU APPLY SAVE t A t IP Add i Figure 4 7 Activating Rapid Spanning Tree 4 2 1 5 Connecting the switch
94. ortSpeed OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 3 Syntax Gauge32 Access Read Description Contains the data transmission speed of the selected port in bps flWorkNetPortDuplexMode OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 4 Syntax INTEGER Access Read Description Contains the duplex mode of the selected port No link 0 Full duplex 1 Half duplex 2 flWorkNetPortNegotiation OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 5 Syntax INTEGER Access Read Description Contains information indicating whether auto negotiation is active Active 1 Manual 2 flWorkNetPortName OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 6 Syntax Octet string 0 16 Access Read write Description Contains the name of the port assigned by the user e g Robot 1 flWorkNetPortEnable OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 7 Syntax Integer Access Read write Description Here you can disable the port Port disabled 1 Port enabled 2 flWorkNetPortModus OID 1 3 6 1 4 1 4346 11 11 4 2 2 1 9 7278_en_05 PHOENIXCONTACT 3 39 FL SWITCH LM Syntax Integer32 0 1024 Access Read write Description This object can be used to set the transmission mode for the relevant port Auto negotiation 1 10 Mbps half duplex 2 10 Mbps full duplex 3 100 Mbps half duplex 4 100 Mbps full duplex 5 1 Fiberglass ports only support operation at 100 Mbps full duplex 5 The autocrossing function is only active when auto negotiation is enabled If the transmission speed or tr
95. pages to configure this Factory Line device Switch Station Information about the switch specific function Home Homepage of the Factory Line device Click on the Phoenix Contact logo or name to to our internet web page Your browser must be properly configured and you need internet access for this to function properly Information web page Contains a brief description of WBM and a navigation tree site map which is linked to every page of WBM 3 2 3 2 Device Information 1 FL SWITCH LM 8TX a General Instructions a Device Information B General Local Diagnostics Serial Port Cl General Configuration C Switch Station 3 Home Figure 3 5 General menu FL SWITCH LM 8TX Device Information Vendor Address Phone Internet Type Order No Serial Number Bootloader Version Firmware Version Hardware Version MAC Address user defined Name of Device System Description Physical Location Contact IP Address Subnet Mask Default Gateway Device Information web page last update 9 19 15 Phoenix Contact GmbH amp Co KG D 32823 Blomberg 49 0 5235 3 00 http www phoenixcontact com FL SWITCH LM BTX 28 32632 6784643247 0 37 1 03 1 00 00 a0 45 11 22 14 FL SWITCH LM 8TX Lean Managed Switch Fab 3 F2 1 Admin 02 192 168 0 120 255 255 255 0 0 0 0 0 This page contains a range of static information about the device and the manufacturer 3 6 P
96. ponents have an SNMP agent This agent manages Management Information Base II MIB 2 according to RFC1213 MIB Bridge MIB IANAifType MIB RSTP MIB RFC1907 MIB and private SNMP objects from Phoenix Contact Network management stations such as a PC with Factory Manager can read and modify configuration and diagnostic data from network devices via the Simple Network Management Protocol SNMP In addition any SNMP tools or network management tools can be used to access Factoryline products via SNMP The MIBs supported by the relevant device must be made available to the SNMP management tools Onthe one hand these are globally valid MIBs which are specified and described in RFCs Request for Comments This includes for example MIB2 according to RFC1213 which is supported by all SNMP compatible network devices On the other hand manufacturers can specify their own private SNMP objects which are then assigned to a private manufacturer area in the large SNMP object tree Manufacturers are then responsible for their own private enterprise areas i e they must ensure that only one object is assigned to an object ID object name and parameters and can be published If an object is no longer needed it can be labeled as expired but it cannot be reused with other parameters under any circumstances Phoenix Contact provides notification of ASN1 SNMP objects by publishing their descriptions on the Internet Reading SNMP objects is not pass
97. rlSerialParity 1 3 6 1 4 1 4346 11 11 11 2 6 4 Integer Read Indicates the parity mode for the serial interface None 1 2 Even 3 flWorkFWCtrlSerialFlowControl 1 3 6 1 4 1 4346 11 11 11 2 6 5 Integer Read Indicates the selected flow control for the serial interface None 1 Hardware 2 3 48 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics flSwitch OID 1 3 6 1 4 1 4346 15 11 11 flSwitchCtrl OID 1 3 6 1 4 1 4346 15 11 11 1 flSwitchCtrlSpanTree OID 1 3 6 1 4 1 4346 15 11 11 1 1 Syntax Integer Access Read write Description Activates deactivates STP for the switch RSTP deactivated 1 RSTP activated 2 To enable RSTP activation the flSwitchCtrlRedundancy object must be set to RSTP flSwitchCtrlRedundancy OID 1 3 6 1 4 1 4346 15 11 11 1 2 Syntax Integer Access Read write Description Indicates the selected redundancy mechanism for the switch If No redundancy is selected all redundancy mechanisms and the corresponding web pages are disabled No redundancy 1 RSTP activated 2 flSwitchCtriMacTableErase OID 1 3 6 1 4 1 4346 15 11 11 1 11 Syntax Integer Access Read write Description This object controls the deletion of the unicast table If this object is set to 2 the switch immediately deletes its unicast table The switch then relearns and creates a new table The object is always set to 1 Default 1 Delete unicast table 2 7278_en_05 PHOENI
98. rotocol and to configure it Setting the redundancy mode to disable the Rapid Spanning Tree configuration will be restored to the default state and the Rapid Spanning Tree Protocol will be deactivated Look for menu item Switch Station Rapid Spanning Tree Multicast Filtering Disable O Enable Enabling the module Multicast Filtering you get additionalweb pages to modify various multicast adjustments Disabling the web pages has no influence on the multicast configuration Look for menu item Switch Station Multicast Virtual LAN Obisable Enable Enabling the module Virtual Local Area Networks VLAN you get additional web pages to modify various VLAN adjustments Look for menu item Switch Station VLAN DHCP Server Obisable Enable Enabling the module DHCP Server you get an additional web page to modify various DHCP Server adjustments Look for menu item Switch Station DHCP Server Enter password e Apply Figure 3 15 User Interfaces web page General Configuration Config Management 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 3 12 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics Configuration Management The configuration has been mod
99. rt currently selected Port Name Indicates the name of the port RSTP Port State Indicates the status in which this port takes part in STP Operational Edge Port Indicates whether this port is operated as an edge port 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 Due to backwards compatibility with STP priority values can be set that are not configurable in RSTP 7278 en 05 PHOENIX CONTACT 4 7 FL SWITCH LM Common features differences with regard to STP Frame duplication Admin Path Cost Indicates the path cost 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 Path Cost Indicates the path cost used for this port Forward Transitions Indicates how often the port switches from the Discarding state to the Forwarding state Additional parameters provide information about the network paths in a stable topology that are used by the BPDU telegrams Designated Root Root bridge for this Rapid Spanning Tree Designated Bridge The switch from which the port receives the best BPDUs The value is based on the priority value in hex and the MAC address Designated Port Port via which the BPDUs are sent from the designated bridge The value is based on the port priority 2 digits and the p
100. s 64 bytes are rejected Valid data telegrams are forwarded by the switch 2 2 2 Multi address function The switch learns all the source addresses for each port Only packets with unknown source addresses asource address for this port amulticast broadcast address in the destination address field are forwarded via the relevant port The switch can learn up to 1023 addresses This is important when more than one termination device is connected to one or more ports In this way several independent subnetworks can be connected to one switch 2 2 8 Learning addresses The LMS independently learns the addresses for termination devices which are connected via a port by evaluating the source addresses in the data telegram When the LMS receives a data telegram it only forwards this data telegram to the port that connects to the specified device if the address could be learned beforehand The LMS can learn up to 1023 addresses and store them in its table The switch monitors the age of the learned addresses The switch automatically deletes address entries from its address table that have exceeded a specific age 48 seconds aging time All learned entries are deleted on a restart 2 8 PHOENIX CONTACT 7278 en 05 Startup and functions Flowchart for learning addresses using the example of unicast addresses Switch receives a frame at port 1 Search for destination address in the addres
101. s of the file transfer Xmodem Dateiversand f r FL SWITCH LMS 4 File transfer 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 3 58 PHOENIX CONTACT 7278_en_05 Rapid Spanning Tree 4 Rapid Spanning Tree 4 1 General function 4 1 1 General function Loops The Rapid Spanning Tree Protocol RSTP is a standardized method IEEE 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 initially impermissible loops Due to these loops data packets can circulate endlessly within the network and can also be duplicated As a consequence the network is usually overloaded due to circulating data packets and thus communication is interrupted The meshed structure is therefore replaced by a logical deterministic path with a tree structure without loops using the Rapid Spanning Tree algorithm In the event of data path failure some of the previously disconnected connections are reconnected to ensure uninterrupted network operation IEEE 802 1w The Rapid Reconfiguration Spanning Tree Protocol RSTP is a standardized method IEEE 802 1w that enables the use of Ethernet networks with redundant data paths and prevents the long timer controlled swi
102. s table Found No Yes The assigned port is receive port port 1 Check which port the address is assigned to The assigned port is port 3 Send frame via all ports except port 1 flooding Send frame Discard frame via port 3 Address not found Backward learning Search for source address in the address table Address found 72780014 Update Enter address with time stamp including port assignment Figure 2 5 Flowchart for learning addresses 2 2 4 Prioritization Quality of Service The switch supports two priority queues for adjusting the internal packet processing sequence traffic classes according to IEEE 802 1D Data telegrams that are received are assigned to these classes according to their priority which is specified in the VLAN prioritization tag Data packets with values between 0 and 3 in the priority field are low default priority Data packets with values between 4 and 7 in the priority field are transmitted with high priority by the switch 7278 en 05 PHOENIX CONTACT 2 9 FL SWITCH LM 2 2 4 1 VLAN prioritization tag The LMS processes incoming data packets in accordance with the prioritization information contained in the Ethernet packet VLAN prioritization tag The tag enables the specification of a priority level from 0 to 7 which the LMS assigns to one of its two internal queues By default upon deliv
103. ses are 224 000 000 001 to 239 255 255 255 Valid subnet masks are 255 000 000 000 to 255 255 255 252 Default gateway router The IP address of the gateway router must be in the same subnetwork as the IP address of the switch 2 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 Bit 1 AS Bit 32 Figure 2 1 Location of the bits within the IP address 6146A056 With binary representation of the IP address the network class is represented by the first bits The key factor is the number of ones before the first zero The assignment of classes is shown in the table below The empty cells in the table are not relevant to the network class and are already used for the network address Bit1 Bit2 Bit4 Bit5 Class A 0 Class B 1 0 Class C 1 1 0 Class D 1 1 0 Class E 1 1 1 0 2 2 PHOENIX CONTACT 7278 en 05 Startup and functions The bits for the network class are followed by those for the network address and the user address Dep
104. signs IP addresses 7278 en 05 PHOENIXCONTACT 3 15 FL SWITCH LM Port Table Subnet Mask Specifies the subnet mask for the network segment Default Gateway Specifies the default gateway router for switching to other network segments DNS Server Specifies the address of the Domain Name Server Lease Time The lease time is a period of time during which the client may use the assigned IP configuration The options are as follows 1hour 1day 1week 1month Ports menu Overview of all available ports Clicking on the relevant port number opens a port specific page Port Configuration Port Table Port Type Port Status Link State 1 TX 10 100 enable 100 MBit FD 2 TX 10 100 enable 100 MBit FD 3 TX 10 100 enable 100 MBit FD 4 TX 10 100 enable 100 MBit FD Figure 3 21 Port Table web page Port Cfg Table menu This menu provides an overview of the important configuration settings for all ports and also offers the option of setting the status transmission mode and link monitoring function for all existing ports 3 16 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics Port Configuration Table Port Status Modus Link Monitoring 2 enable AutoNeg v disable 3 enable AutoNeg disable 4 enable AutoNeg disable 5 enable v AutoNeg v disable v 6 enable 3 Au
105. stic LEDs are available for the supply voltage and for each port Mini DIN RS 232 RS 232 interface in Mini DIN format for local configuration via the serial interface A Alarm contact functional earth ground The floating alarm contact and the optional functional earth ground can be connected here via the COMBICON connector A Supply voltage connection The supply voltage can also be connected redundantly via the 4 pos COMBICON connector as an option 1 1 2 Dimensions of the LMS 112 mm 4 409 b 45 mm 1 772 oooo oooQo Div 99 mm 3 898 72780002 N y Figure 1 3 Housing dimensions of the LMS in millimeters inches 7278_en_05 PHOENIXCONTACT 1 3 FL SWITCH LM 1 1 3 Status and diagnostic indicators Des Color Status Meaning US1 Green ON Supply voltage US1 in the tolerance range OFF Supply voltage US1 less than 18 V DC US2 Green ON Supply voltage US2 in the tolerance range OFF Supply voltage US2 less than 18 V DC LNK Green ON Link active OFF Link not active Flashing Transmitting receiving 100 Yellow ON Full duplex mode OFF Half duplex mode Flashing Collision detected 1 1 4 Firmware versions and their functions 1 1 4 1 For the following switch versions LM FL SWITCH LM 8TX FL SWITCH LM 4TX 2FX FL SWITCH LM 4TX 2FX SM Firmware Version 1 04 provides the standard switch functions Firmware 2 02 offers the followi
106. support option must first be enabled on all devices tis recommended that Large Tree support is not activated in networks with less than seven switches along the relevant path 7278 en 05 PHOENIXCONTACT 4 19 FL SWITCH LM 4 3 2 Properties of Large Tree support 28 switches below the root Rings with a total of 57 switches 28 27 57 Switches ODDO OO QUU Figure 4 16 Topology example for Large Tree support 4 20 PHOENIX CONTACT 7278 en 05 Multicast filtering 5 Multicast filtering Multicast IGMP on Layer 3 Query 5 1 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 wireless communication a station transmits one data packet that is received by one or more receiving stations Advantages 1 If for example a data packet of a transmitter is to be transmitted to eight receivers the same packet does not have to be sent eight times to the addresses of all eight devices Instead it only needs to be sent once to the address of the multicast group that includes the eight devices 2 When using multicast communication and filtering the bandwidth requirement for data tra
107. t across subnetwork boundaries 3 1 3 Configuration and diagnostics Numerous options for configuring and diagnosing the LMS can be found in the Device menu under Properties General Eigenschaften von Ethernet Gerat Allgemeines ES Beschreibung Name FL SwITCH LM Switch X MAC Adresse 00 ao e 12 so 22 IP Adresse Subnetz Maske 255 255 255 0 Default Gateway 0 0 0 0 192 168 2 100 Abbrechen bemehmen Figure 3 3 General menu Here you can check or modify device names and types as well as IP parameters If you modify the IP address and or the other IP parameters using Factory Manager once you click OK you will no longer have access via Factory Manager Restarting the LMS activates the modified parameters and restores access To activate the new addresses following a restart BootP must be activated in the LMS 7278 en 05 PHOENIXCONTACT 3 3 FL SWITCH LM Online diagnostics ie 6 m 65 3 2 Web based management WBM 3 2 1 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 graphical user interface Every user with a network connection to the device has read access to that device via a browser Depending on the physical structure
108. tP is activated as the addressing mechanism Allavailable ports are activated with the following parameters Auto negotiation and autocrossing for RJ45 ports 100 Mbps full duplex for FX ports information collected by the SNMP agent is deleted web server SNMP agent and RS 232 interface are active The Rapid Spanning Tree WBM configuration page is activated alarm contact only opens in the event of non redundant power supply The aging time is set to 48 seconds 2 1 2 Assigning IP parameters When the supply voltage is switched on the switch sends requests BootP requests to assign IP parameters 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 Options for assigning IP parameters Configuration via the BootP protocol default upon delivery Static configuration via the management interfaces 7278 en 05 PHOENIXCONTACT 2 1 FL SWITCH LM The assignment of IP parameters with Factory Manager 2 1 is described on page 3 1 2 1 2 1 Valid IP parameters IP parameters comprise the following three elements IP address subnet mask and default gateway router Valid IP addresses are 000 000 000 001 to 126 255 255 255 128 000 000 000 to 223 255 255 255 Valid multicast addres
109. tch over times of STP Usually the formal term Rapid Reconfiguration Spanning Tree is not used rather just Rapid Spanning Tree Protocol RSTP Example Inthe following network topology six redundant paths have been created to ensure access to all network devices in the event of a data path failure These redundant paths are impermissible loops The RSTP protocol automatically converts this topology into a tree by disabling selected ports In this context one of the switches is assigned the role of the root of the tree From this root all other switches can be accessed via a single data path 22002009 ooo rr ODQG00000000000000000 QDQGO0000000000000000000 72780008 Figure 4 1 Possible tree structure with Rapid Spanning Tree 7278_en_05 PHOENIXCONTACT 4 1 FL SWITCH LM 4 2 RSTP startup Startup consists of two parts that must be executed in the specified order 1 Enable RSTP on all switches that are to be operated as active components in the network 2 Connect the switches to form a meshed topology 1 NO
110. ted over a large area The reduced propagation of broadcasts and multicasts increases the available bandwidth within a network segment In addition the strict separation of the data traffic increases system security A router or similar Layer 3 device is required for data traffic between VLANs For the switch the VLANs can be created statically or dynamically For dynamic configuration the data frames are equipped with a tag A tag is an extension within a data frame that indicates the VLAN assignment If configured correspondingly this tag can be added during transmission to the first switch in the transmission chain and removed again from the last one Several different VLANs can thus use the same switches infrastructure components Alternatively termination devices that support VLAN tags can also be used 6 2 Enabling the VLAN web pages in web based management Start web based management for the switches e g using Factory Manager switch to the General Configuration menu then the User Interfaces page Activate the VLAN function and confirm by entering your password When activating VLAN under User Interfaces the VLAN mechanism is not activated In the WBM menu the VLAN page under which the function can be configured and activated is enabled When deactivating the VLAN configuration pages under User Interfaces the VLAN mechanism is not deactivated The saved VLAN configuration is retained 7
111. the following settings on your Windows PC Eigenschaften von COMI xl Anschlusseinstellungen Bits pro Sekunde rl Datenbits e Paritat eme H Stoppbits hn s Elusssteuerung Standard wiederherstellen Abbrechen Ubemehmen Figure 3 32 HyperTerminal configuration 3 4 1 2 Calling the user interface Connect the PC and the switch using a suitable RS 232 cable PRG CAB MINI DIN Order No 2730611 After establishing the connection press the keyboard shortcut Ctrl Lon the PC The switch then requests the screen contents 3 52 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics 3 4 2 User interface functions 3 4 2 1 Functions during the boot process after a restart If you open the user interface in the first five seconds directly after an LMS 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 Section Starting with faulty software on page 3 56 3 4 2 2 Functions during operation The following functions are available in the user interface Setting IP parameters Selecting the addressing mechanism Resetting to the default settings Activating deactivating the web server Rapid Spanning Tree and the SNMP interface The activation deactivation of the
112. tion 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 1 Integer32 1 1024 Read Indicates the index of the target component which should receive the traps 7278_en_05 PHOENIXCONTACT 3 43 FL SWITCH LM flWorkFWCtrlTrapDestIPAddr OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 2 IP address Read write Indicates the IP address of the target component which should receive the traps flWorkFWCtrlTrapDestCapacityMax OID Syntax Access Description 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 2 3 Integer32 1 1024 Read Specifies the maximum permissible number of trap receivers flWorkFWCtrlTrapDestEnable OID 1 3 6 1 4 1 4346 11 11 11 2 2 1 1 2 3 Syntax Integer Access Read write Description Activates deactivates the sending of traps Sending of traps deactivated 1 Sending of traps activated 2 flWorkFWCirlTrapDestCapacityMax OID 1 3 6 1 4 1 4346 11 11 11 2 2 2 Syntax Integer32 Access Read Description Specifies the maximum permissible number of trap receivers flWorkFWCtrlTrapDestEnable OID 1 3 6 1 4 1 4346 11 11 11 2 2 3 Syntax Integer Access Read write Description This object can be used to disable the send SNMP traps function Sending permitted 2 Sending not permitted 1 fIWorkFWCtrlPasswd OID 1 3 6 1 4 1 4346 11 11 11 2 3 3 44 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics flWorkFWCtrlPasswdSet OID 1 3 6 1 4 1 4346 11 11 11 2 3
113. tion OK 1 Configuration faulty 2 Configuration saved 3 Saving configuration 4 flWorkFWCirlConfSave OID 1 3 6 1 4 1 4846 11 11 11 2 5 2 Syntax Integer Access Read write Description This object can be used to save the device configuration Do not save configuration 1 Save configuration 2 flWorkFWCirlDefaultUponDelivery OID 1 3 6 1 4 1 4346 11 11 11 2 5 3 Syntax Integer Access Read write Description This object can be used to set the device to the default settings basic settings see 2 1 1 on page 2 1 It also triggers a restart Do not reset to default settings 1 Reset to default settings 2 flWorkFWCirlSerial OID 1 3 6 1 4 1 4346 11 11 11 2 6 7278 en 05 PHOENIXCONTACT 3 47 FL SWITCH LM OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description OID Syntax Access Description flWorkFWCtrlSerialBaud 1 3 6 1 4 1 4346 11 11 11 2 6 1 Integer Read This object can be used to request the set data transmission speed of the serial interface 2400 baud 1 9600 baud 19200 baud 38400 baud 57600 baud 115200 baud WP flWorkFWCtrlSerialDataBits 1 3 6 1 4 1 4346 11 11 11 2 6 2 Integer Read Indicates the number of data bits in the serial interface 8 bits 1 flWorkFWCirlSerialStopBits 1 3 6 1 4 1 4346 11 11 11 2 6 3 Integer Read Indicates the number of stop bits in the serial interface 1 bit 1 2 bits 2 flWorkFWCt
114. toNeg disable 1 enable AutoNeg v disable i 8 enable AutoNeg disable Enter password Figure 3 22 Port Configuration Table web page Port Configuration Individual configuration option for each port To view detailed data traffic statistics for the selected port click on Port Statistics i Even if the port is switched off the Link LED for the port remains active 7278 en 05 PHOENIXCONTACT 3 17 FL SWITCH LM Port Configuration mp ss Link State cometed etane ag E Speed Duplex Mode m Link Monitoring Enter password esl Port Configuration of port 2 General Security Port Statistics of port 2 General Figure 3 23 Port Configuration web page T 3 18 PHOENIX CONTACT 7278_en_05 Configuration and diagnostics 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 Port Statistics Port Number Packets up to 64 Octets 65 to 127 Octets 128 to 255 Octets 256 to 511 Octets 512 to 1023 Octets 1024 to 1518 Octets Broadcast Multicast Octets Fragments Undersized Packets Oversized Packets CRC Alignment Errors Drop Events Jabbers Collisions Clear counters You can set the statistic counters of switch ports to
115. tom of the module away from the DIN rail slightly A Next lift the module upwards away from the DIN rail B Figure 1 5 Removing the LMS 1 6 PHOENIX CONTACT 7278 en 05 Lean Managed Switch D 24 V DC 1 3 Installing the Lean Managed Switch 1 3 1 Connecting the supply voltage 1 3 1 1 Assignment of the COMBICON connector Terminal Meaning 1234 5678 1 Supply voltage 051 2 GND US1 3 Supply voltage US2 4 GND US2 5and6 Floating alarm contact CONTACT 7 Functional earth ground optional oe 8 Not used NOTE The switch is designed for SELV PELV operation at 24 V DC according to IEC 60950 1 VDE 0805 Only SELV PELV according to the defined standards may be used for supply purposes The LMS is operated with a 24 V DC voltage that can be supplied redundantly if required see Figure 1 6 version 2 If redundant power supply monitoring is active default setting an error is indicated if only one voltage is applied A bridge between US1 and US2 prevents this error message However it is also possible to deactivate monitoring in web based management IPHCENIX PHCENIX CONTACT CONTACT Figure 1 6 LMS supply 7278 en 05 PHOENIX CONTACT 1 7 FL SWITCH LM 1 3 2 Alarm contact The switch has a floating alarm contact An error is indicated when the contact is opene
116. ts receivers must be set by the user on the relevant device The following traps are used trapColdStart 1 3 6 1 6 3 1 1 5 1 Sent when the switch is started trapPortUp Down 1 3 6 1 6 3 1 5 3 4 Sent when a port is enabled or disabled 3 24 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 3 3 2 Schematic view of SNMP management Management station Trap receiver SNMP management SNMP traps gt Management objects organized in MIBs Agent ie ENE Ee Figure 3 29 Schematic view of SNMP jin Gun 7278 en 05 PHOENIXCONTACT 3 25 FL SWITCH LM 3 3 2 1 Tree structure of the MIB 1 iso 0 std 3 org I I 8802 iso8802 6 dod I I 1 ieee802dot1 1 internet I 1 ieee802dot1mibs 2 mgmt 4 private 6 snmpV2 2 1 mib 2 1 enterprises 3 snmpModules Lupo 4346 phoenixContact 1 snmpMIB 1 system 2 interfaces 3 address translation 4 ip 5 icmp 6 tcp 7 udp 8 10 transmission 11 snmp 17 dotidBridge 30 ianaifType Figure 3 30 Tree structure of the MIB 72780016 Not all devices support
117. twork address and the local subnetwork address the device is located in the local network If the ANDing gives a different result the data telegram is sent to the subnetwork router Example for a Class B subnet mask Decimal representation 255 255 192 0 Binary representation 1111 1111 1111 1111 1100 0000 0000 0000 U Subnet mask bits Class B 61462010 Using this subnet mask the TCP IP protocol software differentiates between the devices that are connected to the local subnetwork and the devices that are located in other subnetworks Example Device 1 wants to establish a connection with device 2 using the above subnet mask Device 2 has IP address 59 EA 55 32 Representation of the IP address for device 2 Hexadecimal representation 59 EA 55 32 Decimal representation 0101 1001 1110 1010 0101 0101 0011 0010 61462011 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 Subnet mask 1111 1111 1111 1111 1100 0000 0000 0000 AND IP address 0101 1001 1110 1010 0101 0101 0011 0010 Result 0101 1001 1110 1010 01 0000 0000 0000 Subnetwork After ANDing the software determines that the relevant subnetwork 01 does not correspond to the local subnetwork 11 and forwards the data telegram to a subnetwork router 7278_en_05 PHOENIX CONTACT 2 5 FL
118. uld not be used as standard IP addresses 127 x x x addresses The Class A network address 127 is reserved for a loopback function on all computers regardless of the network class This loopback function may only be used on networked computers for internal test purposes If atelegram is addressed to a computer with the value 127 in the first byte the receiver immediately sends the telegram back to the transmitter The correct installation and configuration of the TCP IP software for example can be checked in this way As Layers 1 and 2 of the ISO OSI reference model are not included in the test they should be tested separately using the ping function Value 255 in the byte Value 255 is defined as a broadcast address The telegram is sent to all the computers that are in the same part of the network Examples 004 255 255 255 198 2 7 255 or 255 255 255 255 all the computers in all the networks If the network is divided into subnetworks the subnet masks must be observed during calculation otherwise some devices may be omitted In other words the last address of an area is reserved as the broadcast address 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 t
119. ut port The management VLAN ID specifies in which VLAN the switch can be accessed if it is operating in Tagging VLAN mode General VLAN Configuration Current Tagging Status The switch is in the mode VLAN Transparent VLAN Tagging Transparent O Tagging The modified adjustments become effective after saving the configuration and rebooting the device Maximal number of VLANs 8 B Configured VLANs 1 Logout Figure 6 1 General VLAN Configuration menu The switch supports a maximum of 8 different VLANs After switching the VLAN mode from Tagging to Transparent or vice versa the active configuration must be saved and a device reset triggered so that the modification becomes active The current valid state can be read in the Current Tagging Status line 7278_en_05 PHOENIXCONTACT 6 3 FL SWITCH LM 6 4 Current VLANs The Current VLANs web page provides an overview of the VLANS currently set up In addition refer to the table for the VLAN in which the switch is actually managed 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 6 5 Current VLANs VID Status Group Membership static 1 Management Ports 1 8 U UU UU UU OU Vlan 12 static Ports 1 8 Sy Uf Ip ee mee 24 static Ports 1 8 eee ee f
120. ving queries is a member of the group this group is deleted 5 3 1 1 Multicast registration with GMRP GMRP GARP Multicast Registration Protocol enables the distribution of multicast group destination addresses to Layer 2 devices that do not support IGMP snooping After a multicast device has registered with the switch e g by means of an IGMP report the Switch sends a GMRP broadcast packet to all GARP switches which contains the multicast group destination address and indicates whether the switch is joining or leaving the group The other switches can thus create their own multicast groups and add the receive port to the group By default GMRP is activated as soon as IGMP snooping is activated The switches that receive the GMRP packets do not have to support IGMP snooping in order to receive and evaluate the GMRP packets 7278 en 05 PHOENIXCONTACT 5 5 FL SWITCH LM 5 6 PHOENIX CONTACT 7278 en 05 Virtual Local Area Network VLAN 6 Virtual Local Area Network VLAN VLAN i 6 1 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 Data packets are only forwarded within the relevant VLAN members of a VLAN can be distribu
121. web server only takes effect after a SAVE and subsequent restart All settings are applied using APPLY but are not saved permanently Use the SAVE function to save the active configuration settings permanently ie 65 3 4 2 3 Structure of the user interface screens Login screen Login Screen gt Phoenix Contact Lean Managed Switch lt Phoenix Contact GmbH amp Co KG www phoenixcontact com Running switch application version XQ Password Figure 3 33 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 case sensitive We strongly recommend that you change the password via SNMP or WBM 7278 en 05 PHOENIXCONTACT 3 53 FL SWITCH LM Basic switch configuration 2172 16 2 104 HyperTerminal E lnl xl Datei Bearbeiten Ansicht Anrufen bertragung Biles 8 cles Basic Switch Configuration MAC Address IP Address Subnet Mask Default Gateway IP Parameter Assignment XXXKKKKK Redundancy Web Interface SNMP Interface Reset LOGOUT APPLY SAVE 00 80 45 01 F5 89 172 16 2 104 255 299 0 0 0 0 0 0 Static gt Rapid Spanning Tree Disabled gt lt Enable gt Enable gt lt No reset Push SPACE to toggle the VLAN Mode effective after reboot
122. wing versions 2989336 FLSWITCH LM 5TX E 2989433 FLSWITCH LM 4TX 1FX E 2989530 FL SWITCH LM 4TX 1FX ST E 2989637 FLSWITCH LM 4TX 1FX SM E 2989734 FL SWITCH LM 4TX 1FX SM ST E 2989831 FL SWITCH LM 4TX 2FX ST E 2989938 FL SWITCH LM 4TX 2FX SM ST E 1 2 Mounting removal 1 2 1 Mounting and removing the LMS Mountthe LMS 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 0800886 should be mounted on the left hand side next to the LMS to stop the modules from slipping on the DIN rail The end clamp should only be mounted on the right hand side once the LMS has been mounted 7278 en 05 PHOENIX CONTACT 1 5 FL SWITCH LM 1 2 2 Mounting 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 Figure 1 4 Snapping the LMS onto the DIN rail 2 Oncethe module has been snapped on properly check that it is fixed securely on the DIN rail Check whether the positive latches are facing upwards i e snapped on correctly 1 2 3 Removal 1 Remove all plug in connections 2 Pull down the positive latches using a suitable tool e g screwdriver Both positive latches remain snapped out Then swivel the bot
123. word Enter old password C Enter new password ee Retype new password pee The password must be between 4 and 12 characters long Attention The password will be sent over the network in unencrypted format Apply Figure 3 14 Change Password web page The password must be between four and twelve characters long Please note that the password is always transmitted via the network in unencrypted format Forgotten your password Call the Phoenix Contact phone number listed in the Appendix making sure you have the device serial number and MAC address to hand User Interfaces menu The following actions can be performed here Activation deactivation of the web server Activation deactivation of the SNMP agent Activation deactivation of the configuration pages for redundancy With the activation deactivation of the configuration pages under User Interfaces only the web pages for configuring the selected functions are enabled disabled in the WBM menu 7278 en 05 PHOENIXCONTACT 3 11 FL SWITCH LM User Interfaces Web Server Disable Enable SNMP Agent Obisable Enable Be sure to have access after changing Web Server SNMP Agent to disable Web pages Redundancy O Disable 9 Rapid Spanning Tree Enabling the module Rapid Spanning Tree you get additionalweb pages to activate the Rapid Spanning Tree P
124. word protected However a password is required for read access in SNMP but this is set to public which is usual for network devices and cannot be modified By default upon delivery the password for write access is private and can be changed by the user SNMP the web interface and the serial terminal all use the same password which can be changed by the user 7278 en 05 PHOENIXCONTACT 3 23 FL SWITCH LM OID Description OID Description 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 Agents reside in all managed network components and transmit the values of specific settings and parameters to the management station On a request from a manager or on a specific event the agent transmits the collected information to the management station Traps Traps are spontaneous SNMP alarm or information messages which are sent by an SNMP compatible device when specific events occur Traps are transmitted with maximum priority to various addresses if required and can then be displayed by the management station in plain text The IP addresses that are to receive these traps trap targe
125. y string Read Contains the manufacturer s name and address Phoenix Contact GmbH amp Co KG D 32823 Blomberg pxcBasicURL 1 3 6 1 4 1 4346 2 1 3 Display string Read Contains the manufacturer s web address http www phoenixcontact com 3 3 5 3 pxcFactoryLine OID 1 3 6 1 4 1 4346 11 flGlobal 1 3 6 1 4 1 4346 11 1 flBasic 1 3 6 1 4 1 4346 11 1 1 flBasicName 1 3 6 1 4 1 4346 11 1 1 1 Display string Read Contains the name of the product group Factoryline flBasicDescr 1 3 6 1 4 1 4346 11 1 1 2 3 32 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics 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 4 Syntax Integer32 1 1024 Access Read Description Contains the number of different components that can be managed with this device flComponents OID 1 3 6 1 4 1 4346 11 1 2 flComponentsTable OID 1 3 6 1 4 1 4346 11 1 2 1 flComponentsTableEntry OID 1 3 6 1 4 1 4346 11 1 2 1 1 Syntax Access Description Generates a table containing information about a Factoryline component flComponentsIndex OID Syntax Access Description 1 3 6 1 4 1 4346 11 1 2 1 1 1 Integer32 1 1024 Read
126. zero Enter password Port Configuration of port 1 General RSTP Figure 3 24 Port Statistics web page 7278 en 05 PHOENIXCONTACT 3 19 FL SWITCH LM 65 Port Mirroring menu Activation deactivation and setting of port mirroring Port mirroring is used to passively read input or output 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 Port Mirroring Source Port 5 w Destination Port 1 vi Mirroring Status O Disable Enable Enter password Figure 3 25 Port Mirroring web page WBM prevents the same ports from being set i e the source port and destination port must differ The port capacity is calculated according to the set transmission parameters Example A Source port is operated at 100 Mbps and reaches a capacity of 5 The destination port is operated at 10 Mbps Therefore with the same volume of data the destination port reaches a capacity of 5096 Diagnostics Display menu The Display menu contains some status information about the switch Display Operating Status Firmware is working Alarm Contact Status One power supply lost Power Supply Status Power supply US1 connected Figure 3 26 Display menu 3 20 PHOENIX CONTACT 7278 en 05 Configuration and diagnostics Diagnostics Alarm Contact menu Here
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