Anwenderhandbuch UM DE FL SWITCH SMCS
Contents
1. 74710014 Figure 4 32 Schematic view of SNMP 7471_en_06 PHOENIX CONTACT 4 25 FL SWITCH SMCS SNMP interface All managed Factoryline components have an SNMP agent This agent of an FL SWITCH SMCS manages Management Information Base II MIB 2 according to RFC1213 RMON MIB bridge MIB If MIB Etherlike MIB lana address family MIB IA AifType MIB SNMPv2 SNMP FRAMEWORK P bridge MIB bridge MIB RSTP MIB LLDP MIB and private SNMP objects from Phoenix Contact FL SWITCH M MIB 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 Manage ment Protocol In addition any SNMP tools or network management tools can be used to access Factoryline products via SNMP To do this the MIBs supported by the relevant device must be made available to the SNMP management tools On the 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 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 i2. 11 1 11 27 Configuring coire eee tro efe 11 2 11 24 WBM eee eas 11 2 11 2 2 SSNMP iii etas ie ERI ER OE pe heeds 11 2 12 Technical data and ordering dates sii ee ae 12 1 12 1 Technical data nene xb E Se es 12 1 12 2 Ordering data ien oae ierit ERES 12 5 7471 en 06 PHOENIX CONTACT iii FL SWITCH SMCS iv PHOENIX CONTACT 7471_en_06 Smart Managed Compact Switch SMCS 1 Smart Managed Compact Switch SMCS ATTENTION The software functions are largely the same all of the listed devices They only differ with regard to the data transmission speed Any other differences are particularly mentioned where necessary 1 ATTENTION By default upon delivery the FL SWITCH SMCS 4 8TX PN switch operates in PROFINET mode 1 1 Properties The Smart Managed Compact Switch SMCS is an industrial Ethernet switch which is available in the following versions Eight Gigabit ports in RJ45 format FL SWITCH SMCS 8GT Six Gigabit ports in RJ45 format and two fiber optic ports as SFP slots FL SWITCH SMCS 6GT 2SFP Eight Fast Ethernet ports in RJ45 format FL SWITCH SMCS 8TX Four Fast Ethernet ports in RJ45 format operating in PROFINET mode by default upon delivery FL SWITCH SMCS 4TX PN Eight Fast Ethernet ports in RJ45 format operating in PROFINET mode by default upon delivery FL SWITCH SMCS 8T
3. 8 6 8 6 VLAN and TP eee Yt ed A ei 8 7 9 Operation as a PROFINET device 9 1 9 1 Preparing the switch for PROFINET mode sss 9 1 9 2 Switch as a PROFINET device sesseeeeneeeneneen nennen 9 2 9 2 1 Configuration in the engineering 00 9 2 9 2 2 Configuring the switch as a PROFINET IO device 9 3 9 2 3 Configuration via the engineering tool 9 5 9 2 4 PROFINET flashing function 9 5 9 2 5 arre ERE PERPE ER ERI TR 9 5 9 2 0 Operating in the PROFINET environment 9 5 9 3 PROFINET alarms occ ota tsa did adeo ce utt ete 9 5 9 3 1 Alarms in WBM Aral 9 6 9 4 Process data communication eese enm 9 6 9 4 1 Gohlrol WOFG ie ho ep retis 9 6 9 5 PDEY function deseription s o rl 9 7 9 5 1 PROFINET stack and function eese 9 8 10 LLDP Link Layer Discovery Protocol zur 10 1 10 1 T T TTT 10 1 10 2 Representation of the topology in an engineering 10 4 11 TAMAS 11 1 11 1 Simple Network Time Protocol
4. Relevanter Pfad f r Einstellung der Timer Werte 7471020 Lii i Frl po Figure 5 17 Example 1 for the relevant path 5 22 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree ea i DDDD00000000 Inaktive Verbindung at fat N Aktive Verbindung S gt Relevanter Pfad f r Einstellung der Timer Werte nana a i AA 70562107 EHHIT Figure 5 18 Example 2 for the relevant path 5 2 6 8 Reconfiguration times The reconfiguration time for a 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 the 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 f
5. d koffer 1 350 PN 192 168 0 2 Ressource R STD RES ILC350PN B eee Betta DE Factory Line Switch f r PROFINET 10 de 192 168 0 6 gt BE rero hoffer de 192 168 0 3 Ge e Mi tk totrer de 192 165 0 4 D PReeeTio B ibo effer de 192 168 0 5 az Us PROFINET Geratenane BY Nett verbunden Di Tensmenme 0 0 0 0 0 0 0 0 0 0 0 0 O Dat CC Md C adesse D sunezmade 5 1 2552552550 Standardgateway O c ac Ger tekatalog C3 OPTOSUB 2MBD amp PROFINET IO 25 INTERBUS Prosy 9 10 Controller 10 Device 24 BK PN PAC Rev gt 10 010 Bl FL SWITCH MM HS Rev gt 1070 1 ILE PN 24 0116 DID16 2TX Rev gt 10 01 tE PSM RFCAsx OA Code A Fehler Wamungen Infos A SPS Fehler A Drucken A Buskonfigurator Dr cken Sle F1 f r Hife fi Figure 9 2 The switch in the bus configuration under PC Worx If the switch is not listed in the device catalog the device description provided by Phoenix Contact must be imported The latest device description can be downloaded at www download phoenixcontact com Ifthe device description is available in the device catalog the following options are avai
6. 051 052 GND GND R1R2 705800001 A D D D D 24 V DC OUT Figure 2 3 Supplying the SMCS using one voltage source 2 2 PHOENIX CONTACT 7471_en_06 Mounting and installation Redundant 24 V DC supply US1 2 GND GND R1 R2 24V D Figure 2 4 Supplying the SMCS using two voltage sources In order to reset the SMCS on power up the power supply must be interrupted for at least three seconds 2 2 2 Alarm contact The switch has a floating alarm contact An error is indicated when the contact is opened R1 R2 67842015 Figure 2 5 Basic circuit diagram for the alarm contact The indicated error states are configured in web based management or via SNMP For a list of error states that can be configured please refer to Section Diagnostics Alarm Contact menu on page 4 22 In the event of a non redundant voltage supply the switch indicates the voltage supply failure by opening the alarm contact This error message can be prevented by connecting the supply voltage to both terminal blocks in parallel as shown in Figure 2 3 or by deac tivating redundant power supply monitoring in web based management or via SNMP 2 2 3 Assignment of the RJ45 Ethernet connectors Please note that
7. If you delete the VLAN in which the switch is managed management is automatically switched to VLAN 1 7471 en 06 PHOENIX CONTACT 8 1 FL SWITCH SMCS Transparent B B The IGMP Query function only transmits in the management VLAN and only stops if there is a better querier in the management VLAN 8 2 2 Changing the management VLAN ID 8 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 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 Savethe configuration on the General Configuration Configuration Management web page and restart the switch 8 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 3 3 on page 3 6 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 t
8. Figure 8 6 Teilnehmer VLAN 5 Switch 2 2m Port 3 PVID X Prio X Teilnehmer VLAN 5 a Switch 2 2 PVID X mitTags e ii eoo mit Tags s Switch configuration 1 2 3 4 Endger t A Teilnehmer in VLAN 5 ohne Tags Switch 1 Port 7 PVID 5 Prio 4 Teilnehmer VLAN 5 ohne Tags Switch 1 Port 1 PVID X Prio X Teilnehmer VLAN 5 mit Tags Endger t B Teilnehmer in VLAN 5 mit Tags Example Communication between termination devices via VLAN Set both switches to VLAN Tagging mode save and restart devices Create VLAN 5 on switch 1 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 8 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
9. 7 1 7 8 Static multicast groups seis dite ene t Re RR RERUM NUS 7 1 7 3 1 Current Multicast Groups web page 7 2 7 3 2 Creating static multicast groups 7 2 7 3 3 Procedure for creating a multicast group 7 4 7 4 Dynamic multicast emm emere 7 7 7 4 1 Internet Group Management Protocol IGMP 7 7 7 4 2 General Multicast Configuration web page 7 8 7 5 1 Properties of multicast source detection 7 10 8 Virtual Local Area Network 8 1 8 1 Basics iie DRE EE UR EE ED ER 8 1 8 2 Enabling the VLAN web pages in web based 8 1 8 2 1 Management VLAN ID 8 1 8 2 2 Changing the management VLAN ID 8 2 8 3 General VLAN configuration eese nennen nennen 8 2 ii PHOENIX CONTACT 7471_en_06 Table of contents 8 4 G rrent ne ene del Ebern 8 3 8 4 1 Stall VLAN S A anne 8 4 8 4 2 VLAN port configuration essee eem 8 5 8 4 3 VLAN port configuration table 8 5 8 5 Setting VLAN S aee eii eison korin teea
10. Dy Beseummer 999999 Durch den Anwender D Rem eingestellt D PROFNET Gerstename f swechs hoffe de 4C Stationsname 5 Timhmemme 192168407 IP Adresse m sbmtmas 25 25 2550 4 Subnetzmaske P Seanderdgateway id eme aktulsteringseet Gy bewahoget m 20 4 Empfohlener Wert 74710023 Figure 9 3 Device details with modified settings The PROFINET variables can then be created and used in the control program In addition to the PNIO DATA STATE standard variables the switch provides the link status as a process data byte for each port If the PNIO DATA VALID bit for the PNIO DATA STATE variables declares the switch process data as valid the process data item for a port can have the following values see Section Additional process data on page 9 7 Value 1 Active link Value 2 No active link Value 3 Link present but partner cannot establish link only for FX ports Far End Fault Detection Value 4 Port is administratively disabled Value 129 Portis active but in the Blocking state due to the redundancy protocol RSTP MRP Process data can only be accessed if the parameterized desired configuration on device startup corresponds to the actual configuration The Status word and the Control word of the management agent are not used 9 4 PHOENIX CONTACT 7471 en 06 Operation as a
11. Enable Bit Rate Kbps 11024 v Enter password Figure 4 31 Broadcast Limiter menu 4 24 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics 4 3 Simple Network Management Protocol SNMP 4 3 1 General function SNMP is a manufacturer independent standard for Ethernet management It defines com mands for reading and writing information and defines formats for error and status mes sages SNMP is also a structured model that comprises agents their relevant Management Information Base MIB and a manager The manager is a software tool which is executed on anetwork 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 a SMCS restart must be saved permanently using the flWorkFWCtrlConfSave object 4 3 2 Schematic view of SNMP management Management Station SNMP Management Receiver SNMP Traps gt en In MIBs organisierte o Management Objects 4 E
12. FL SWITCH SMCS Configuration comparison Here you can compare the configuration on the memory plug with the configuration in the SMCS memory The result is displayed in text format Configuration comparison No information available Please trigger a Status 3 compare opearation using button below Enter password Figure 4 19 Configuration comparison web page If you replace a memory plug with another memory plug within a few seconds the config uration comparison must be updated manually Clear memory plug Here you can delete the memory plug by entering a valid password Clear Memory Plug You can clear the Memory Plug to get an empty module using the button below A switch with an empty Memory Plug loads the configuration out of the non volatile memory of the Switch during the startup phase A new configuration will be stored in the Memory Plug when you save the current configuration or the device is booting Enter password Figure 4 20 Clear Memory Plug web page 4 2 3 4 Switch station Services menu Services Reboot The device accomplishes a reboot Note The device reboots with the last stored configuration save here before Enter password a Figure 4 21 File Transfer web page Reboot To trigger a reboot via the web interface enter a valid password Save the configuration beforehand so that configuration modifications are retained or can be activated via a restart 4
13. beaded LT 687410062 Example of an MRP ring Make sure that the topology used does not contain an invalid mixture of RSTP and MRP e g by additionally coupling two of the devices through an RSTP connection rendering them redundant 6 2 PHOENIX CONTACT 7471 en 06 Media Redundancy Protocol MRP Example of a permissible network with MRP and R STP 6 2 1 1 R STP Ring BA R STP Ring DOODODONOLDOII xus omm m Pom on Eee IT 3 je Figure 6 2 Permissible example of MRP with R STP 6 2 1 2 Example of an impermissible network with MRP and R STP 3 Ga Tele el F JE ATHLE R STP Ring E Ex ag em R STP Ring x Eis 687410064 age PTT
14. User manual UM EN FL SWITCH SMCS Smart Managed Compact Switch DO GD OO GD GD OGD OO GD 1007200094 INSPIRING INNOVATIONS User manual Smart Managed Compact Switch 2013 01 10 Designation UM EN FL SWITCH SMCS Revision 06 Order This user manual is valid for Designation Revision FL SWITCH SMCS 16TX FL SWITCH SMCS 14TX 2FX FL SWITCH SMCS 14TX 2FX SM FL SWITCH SMCS 8GT FL SWITCH SMCS 6GT 2SFP FL SWITCH SMCS 6TX 2SFP FL SWITCH SMCS 8TX FL SWITCH SMCS 8TX PN FL SWITCH SMCS 4TX PN Order No 2700996 2700997 2701466 2891123 2891479 2989323 2989226 2989103 2989093 PHOENIX CONTACT 7471 en 06 Internet Subsidiaries Published by Please observe the following notes User group of this manual The use of products described in this manual is oriented exclusively to 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 Qualified application programmers and software engineers who are familiar with the safety concepts of automation technology and applicable standards Explanation of symbols used and signal words hazards Obey all safety measures that follow this symbol to avoid possible N This is the safety alert symbol It is used to alert you to potential personal injury injury or death There are three different
15. violet or marking for FL CAT5 6 PATCH yellow or marking for FL PATCH GUARD black lor marking for FL PATCH GUARD blue or marking for FL PATCH GUARD green lor marking for FL PATCH GUARD orange or marking for FL PATCH GUARD red lor marking for FL PATCH GUARD turquoise or marking for FL PATCH GUARD violet lor marking for FL PATCH GUARD yellow Key for FL PATCH GUARD Security element for FL CAT 5 6 PATCH HOTLINE Order designation 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 CAT6 PATCH 15 FL CAT6 PATCH 20 FL PATCH 0 3 FL PATCH 0 5 FL PATCH 1 0 FL PATCH 1 5 FL CAT5 PATCH 2 0 FL PATCH 3 0 FL CAT5 PATCH 5 0 FL 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 Order No 2891385 2891482 2891589 2891686 2891783 2891880 2891887 2891369 2891372 2891576 2832250 2832263 2832276 2832221 2832289 2832292 2832580 2832616 2832629 2891194 2891495 2891291 2891796 2891699 28
16. 0 39 in FL MEM PLUG 2891259 Figure 1 4 Housing dimensions of the SMCS 16 port version in millimeters inches 1 4 PHOENIX CONTACT 7471 en 06 Smart Managed Compact Switch SMCS 1 2 Status and diagnostic indicators Please note that the meaning of the LEDs differs in Smart mode see Using Smart mode on page 3 3 Des Color Status Meaning US1 Green ON Supply voltage 1 within the tolerance range OFF Supply voltage 1 too low US2 Green ON Supply voltage 2 within the tolerance range OFF Supply voltage 2 too low FAIL Red ON Alarm contact open i e an error has occurred OFF Alarm contact closed i e an error has not occurred A Link LED is located on the front of the SMCS for each port LNK Green ON Link active Link OFF Link not active An additional LED is located on the front ofthe SMCS for each port The function ofthe second LED MODE for each port can be set using the MODE switch see also example below There are three options during the boot process the mode and port LEDs are permanently on ACT Green ON Transmitting receiving telegrams Activity OFF Not transmitting receiving telegrams SPD Green ON 1000 Mbps Speed orange orange On green 100 Mbps for RJ45 ports only OFF 10 Mbps if Link LED is active for RJ45 ports only FD Green ON Full duplex Duplex OFF Half duplex A
17. Device Information web Here you will find a range of static information about the device and the manufacturer Technical Data menu Here you will find the most important technical data Hardware Installation menu Here you will find a connection diagram for connecting the redundant power supply and the alarm contact Local Diagnostics menu Here you will find a description of the meaning of the switchable diagnostic and status indicators Serial Port menu Here you will find the transmission parameters for serial communication 4 6 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics 4 2 8 8 General configuration IP Configuration menu 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 192 168 10 145 Subnet Mask 255 255 255 0 Default Gateway 0 0 0 0 Management Vlan ID 0001 Default YLAN 1 For detailed information about the configured vlans see web page Switch Station Vian Current Vlans Static Assignment Type of the IP address O Bootstrap Protocol BootP assignment Profinet IO Device with Discovery and Configuration Protacol DCP Address Conflict Detection ACD IP add flict Mod 6 25 address conflict Mode IP conflict state Unknown 0 0 0 0 00 00 00 00 00 00 Please enter IP Addres
18. 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 5 6 PHOENIX CONTACT 7471_en_06 Rapid Spanning Tree Priority Indicates the priority set for this port default 128 Due to backward compatibility with STP priority values can be set that are not configurable in RSTP 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 2000000 100 Mbps 200000 1000 Mbps 20000 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 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 port number Designated cost Indicates the path cost of this segment to the root switch Protocol com
19. Mac Addresses in the range from 01 00 5E 80 00 00 up to 01 00 5E FF FF FF will not be allowed to avoid input mistakes For limiting the visibilty of profinet devices in the network create a multicast group for profinet dcp identify requests with the mac address 01 0 00 00 00 Logout Apply Delete Figure 7 2 Static Multicast Groups menu In order to check which ports are assigned to which group select one of the existing groups The corresponding MAC address is then displayed in the Multicast Group Address text field The members of the group are indicated by the activated checkboxes Multicast addresses Do not use multicast MAC addresses that are in the range from 01 00 5e 80 00 00 to 01 00 5e FF FF FF An incorrect MAC address format and the entry of non multicast addresses is indicated and the entry is not permitted Please note that in multicast MAC addresses the bytes are separated by a colon and in IP multicast addresses are separated by a full stop 7 3 3 Procedure for creating a multicast group Gain an overview of the multicast applications available within the network and the multicast addresses used Create a group for every multicast application or for the multicast address used and for each switch add the ports to which a device of the appropriate group is directly connected or via which the device can be accessed 7 4 PHOENIX CONTACT 7471
20. permanently by selecting Save current configuration on the Configuration Manage ment web page After entering a new group in the Multicast Group Address field add the ports of the group members by selecting the corresponding checkboxes Confirm by entering your password and clicking on Apply 7471 en 06 PHOENIX CONTACT 7 3 FL SWITCH SMCS Modifying assignment Checking group assignment Incorrect format Select the corresponding group in the Select Group list box to modify delete the port assignment The group members are indicated by activated checkboxes and can be modi fied if required An action is completed by entering a password and clicking on Apply or Delete Static Multicast Groups vid 0001 group 01 00 5 00 18 08 vid 0001 group 01 00 5 00 19 21 vid 0003 group 01 00 5e 00 18 2d group 01 00 5 00 8 8 Select Group VLAN ID gt Multicast Group Address 00 5 00 8 8 Ports 1 8 a m a a m ooo Ports 9 16 B m a ad m deo Please enter the MAC address of a multicast group in the format 300C30CX0CY0C XC The address of an IP Multicast Group can be an IP address in dotted format in the range from 224 0 0 0 to 239 255 255 255 or a MAC address in the range from 01 00 5 00 00 00 up to 01 00 5E 7F FF FF separated by colons A multicast IP address will be translated into a multicast MAC address automatically
21. they them selves become queriers again If there are no routers in the network a suitably equipped Switch can be used for the query function 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 mes sages 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 Protocol IGMP 7471 en 06 PHOENIX CONTACT 7 7 FL SWITCH SMCS 7 4 1 1 Extended multicast filtering If IGMP snooping is active multicast data streams are also detected for which no member ship 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 e
22. 120s Link Layer Discovery Protocol web page Message Time To Live Enter password Figure 10 1 The Message Time To Live is determined by multiplying the Message Transmit Interval with the Message Transmit Hold Multiplier The Message Transmit Hold Multiplier can only be modified via SNMP The default value is four 10 2 PHOENIX CONTACT 7471 en 06 LLDP Link Layer Discovery Protocol LLDP topology LLDP Topology Local Neighbors Port Type Address Device Port 1 G 192 168 0 45 FL SWITCH MM HS 12 192 168 0 3 f il bk2 quicks port 001 11 ap 192 168 0 5 fl pn ibs4 quick port 001 Note This web page will be refreshed in 26 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 10 2 LLDP Topology web page A table is created for known neighbors and contains the following five columns Local port Contains the port number of the local switch that is used to connect a neighbor to this switch The port number is also a link to the local Port Configuration web page Anicon is displayed here which corresponds to the neighboring device type Ethernet Device is displayed in general for devices produced by other manufacturers Address Indicates the management IP address for the neighbor Device Indicates the system name of the neighbor ndicates the port number of the neighboring switch that is used to connect
23. 16 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics Ports Port Table menu Overview of all available ports Clicking on the relevant port number opens a port specific page Port Configuration Port Table Port Port Status Link State 1 TX 10 100 1000 enable 1 GBit s FD 2 TX 10 100 1000 enable not connected 3 TX 10 100 1000 enable 1 GBit s FD 4 TX 10 100 1000 enable 1 GBit s FD 5 TX 10 100 1000 enable not connected 6 TX 10 100 1000 enable 1 GBit s FD 4 TX 10 100 1000 enable 1 GBit s FD 8 TX 10 100 1000 enable 1 GBit s FD Note This web page will be refreshed in 11 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 4 22 Port Table web page il When setting the transmission mode make sure that the same settings have been made at both ends of the connection If the settings are not the same this can result in increased collisions or CRC errors and can adversely affect network performance Fast Startup definition Fixed setting of transmission speed and mode 100 Mbps full duplex etc Advantage Some milliseconds can be saved due to the fact that there is no need to negotiate these parameters Ports 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 exist
24. 28 Basic Switch Configuration MAC Addresse IP Address Subnet Mask Default Gateway IP Parameter Assignment Redundancy Web Interface SNMP Interface Reset LOGOUT APPLY SAVE FL SWITCH SMCS 86T 00 10 45 07 72 60 172 16 29 100 1 255 255 255 0 1 9 0 0 0 lt STATIC gt lt Rapid Spanning Tree Disabled gt lt Enable gt lt Enable gt lt No reset 38400 8 N 1 Figure 5 11 Activating Rapid Spanning Tree 5 12 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree 5 2 5 Configuration notes for Rapid Spanning Tree In contrast to the Spanning Tree method the Rapid Spanning Tree method supports event controlled actions that are no longer triggered based on a timer If one 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 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 because the line is interrupted between the media converters and no link down is forced at the switch timer based detection is acti vated which may result in
25. 3 6 1 2 1 17 0 2 5 2 4 2 Interrupted data paths and port states The described data path interruption by the Spanning Tree protocol is created by discon necting individual ports that no longer forward any data packets A port can have the follow ing states Learning Forwarding Blocking Discarding Disabled link down or disconnected by the user The current port states are shown in the web interface 5 10 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree The properties of the various port states are shown in the table below Table 5 1 Properties of the port states Receiving and evaluating Learning the MAC Forwarding data packets BPDUS learning the addresses of connected normal switching function topology devices and creating switching tables Disabled Blocking Discarding X Learning X X Forwarding X X X The sequence of the five port states defined in the Spanning Tree Protocol cannot be assigned freely The following diagram illustrates the possible sequence of the port states Disabled Blocking Learning a Forwarding 68742043 Figure 5 10 Sequence of the possible port states in STP After device startup and if necessary also during topology modification a port runs through the states in the following order Learning Forwarding or Disabled gt Blocking Discarding
26. 4 4 2 User interface functions 4 4 2 1 Functions during the boot process after a restart If you open the user interface in the first five seconds immediately after a SMCS 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 firmware on page 4 33 4 4 2 2 Functions during operation The following functions are available in the user interface Setting the IP parameters Selecting the addressing mechanism static BootP Resetting to the default settings Activating deactivating the web server and SNMP Activating deactivating the RSTP redundancy mechanism Reset All settings are applied using APPLY but are not saved permanently Use the SAVE function to save the active configuration settings permanently 4 4 2 3 Structure of the user interface screens Login screen Login Screen Phoenix Contact Smart Managed Compact Switch Phoenix Contact GmbH amp Co KG www phoenixcontact com Running switch application version x xx Password 74710011 Figure 4 35 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
27. 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 Switch 4 Broken In addition switch 3 would also generate the flWorkLinkFailure trap as long as the sending of traps is not disabled 6 5 Basa Semi QOD000000000000000000008 B Endes LT Em DOE HR Esses LT E 5 2 3 74710017 Figure 5 9 Connection failure with RSTP ring detection 7471_en_06 PHOENIX CONTACT 5 9 FL SWITCH SMCS 5 2 3 Mixed operation of RSTP and STP If a device with STP support is integrated into the network only switch ports that receive STP BPDUs are se
28. Prioritat 4000 Switch 4 Prioritat 40000 um Priorit t Default Switch 5 ammi Prioritat Default m Switch 9 9 Priorit t Default R Switch 8 WJ Discarding Port Prioritat Default Switch 7 Prioritat 40000 Figure 5 12 Example topology The loops in the example topology illustrated are disabled by active RSTP components The example topology contains three rings the root and the backup root are components in each of the three rings The three rings do not affect one another a modification to the topology in one ring does not affect the topology of the other two rings Rule 3 No more than ten active Spanning Tree components in the topology when using Spanning Tree default setting 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 standard so that a topology with a maximum of ten active Spanning Tree components always results in a stable network When using large tree please note the following see also Section Large tree support on page 5 3 Inthe large tree support RSTP topology only use devices that support large tree Enable the Large Tree Support option on all devices 5 14 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree If RSTP isto be activated as the redundancy mechanism in an existing network
29. The MRP ring can therefore be created using any SMCS ports Canbeusedin the PROFINET environment Operating mode can be easily changed using Smart mode 1 2 PHOENIX CONTACT 7471 en 06 Smart Managed Compact Switch SMCS 1 1 0 1 Front view of the SMCS MODE Umschalter Port mit LEDs Beschriftungsfelder CONTACT tungsfeld MAC Adresse _ 8 sie Beto Diagnose Status Anzeigen Schema der Ethernet Port Nummerierung Ger te Beschrif IPHCNIX Anschluss EN Versorgungsspannun 3 V 24 Schnittstelle Mini DIN P t i If 1 74710000 Meidekantaki M12 Buchse f r Ethernet Parametrierungsspeicher Ports SFP Slots Figure 1 2 Front view of the SMCS using the example of the FL SWITCH SMCS 8GT Diagnostic status indicators Important information is displayed directly on the device Each port has two LEDs The top LED always indicates the LINK the display of the bottom LED is set with the func tion switch MODE switch for LEDs and Smart mode The MODE switch can be used to specify which information is displayed by the second port specific LED The three LEDs below the switch indicate the selected mode This information is then displayed by all port specific LEDs see also example on page 1 6 In addition this button is used to set the switch to Smart m
30. categories of personal injury that are indicated with a signal word 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 This symbol together with the signal word NOTE and the accompanying text D alert the reader to a situation which may cause damage or malfunction to the device hardware software or surrounding property This symbol and the accompanying text provide the reader with additional infor mation or refer to detailed sources of information 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 FlachsmarktstraBe 8 32825 Blomberg GERMANY Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals please send your comments to t hoenixcontact com PHOENIX CONTAC
31. data path failure some of the previously disconnected connections are reconnected to ensure uninterrupted network operation RSTP prevents the long timer controlled switch over times of STP Example In the 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 Spanning Tree protocol automatically transforms this topology into a tree by disconnecting 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 asingle data path piros seo 281 L fal 1 3 elle 2 8 ale Root nme 4 lt b PEE 3 5 BE Damy 88 5 cf ZAE 1 9 eke CHEER m nO feed REL a bs Figure 5 1 Possible tree structure with Spanning Tree 7471 en 06 PHOENIX CONTACT 5 1 FL SWITCH SMCS 5 2 R STP startup Startup consists of two parts that must be executed in the specified order 1 Enable R STP all switches
32. dt e FE el KE 7 e 74710019 E Figure 5 13 Redundant coupling of network segments 7471_en_06 Rapid Spanning Tree Example with fast ring detection n Switch 1 Switch 3 Root Bridge Prioritat Default Priorit t 0 Switch 12 SE HEB Bed Prioritat Default Switch 11 WA Prioritat 40000 Switch 6 Fries Switch 2 E Priorit t Default Backup Root Bridge o O Prioritat 4000 Switch 4 7 Prioritat 40000 Switch 10 I z Priorit t Default Switch 5 771997 Priorit t Default SN Switch 9 Es Prioritat Default SK Switch 8 WX Discarding Port Priorit t Default Switch 7 Prioritat 40000 Figure 5 14 Example with fast ring detection The switches in the illustrated example are arranged in such a way that two devices at the central position are configured as the root bridge and as the backup root bridge via the pri ority The root bridge has the lowest priority the backup root bridge has the second lowest prior ity The root bridge and the backup root bridge are connected together redundantly The remaining switches are networked in several rings in a ring topology The end
33. 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 required then it will be labeled as expired It cannot be reused for example with other parameters under any circumstances Phoenix Contact provides notification of ASN1 SNMP objects by publishing their descrip tions on the Internet Reading SNMP objects is not password 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 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 com ponents and transmit the values of specific settings and parameters to the management station On a request of a manager or on the occurrence of a specific event the agent transmits the collected information to the management s
34. in the form of a tree structure 7471_en_06 PHOENIX CONTACT 8 7 FL SWITCH SMCS In the 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 members 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 eee i Ene mmm omm Endger t Endger t in VLAN2 em 5 in VLAN2 E Manuelle Konfiguration VLAN 2 Port Mitglied Tagged VLAN 2 Port Mitglied Untagged Port VID VLAN2 Figure 8 7 Typical configuration for VLAN and R STP 8 8 PHOENIX CONTACT 7471 en 06 Operation as a PROFINET device 9 Operation as a PROFINET device Switching to PROFINET mode The switch is supported as a PROFINET device in PC Worx Version 5 00 26 or later The PROFINET IO controller is then responsible for starting up the switch within PROFINET application This includes assigning the IP para
35. last storing Configuration File Transfer successfully executed Configuration File Transfer was not successfully executed Firmware Update was successfully executed 4 22 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics Firmware Update was not successfully executed Link up at port xy Link down at port xy Enabling port xy Disabling port xy enabled RSTP disabled RSTP topology changed RSTP elected this switch as new root Power Supply US1 lost Power Supply US2 lost Power Supply US1 and US2 are connected now SNTP enabled SNTP disabled SNTP server timeout Profinet connection established Profinet connection terminated LLDP Agent enabled LLDP Agent disabled recognized new neighbor at port xy neighborhood information become obsolete at port xy LLDP neighborhood information changed at port xy Client enabled MRP disable Manager detects a loop failure enabled MRP disable Ring failure detected MRP Ring closed Manager detects a closed loop Diagnostics Mac Address Table menu Here you will find a list of which MAC address has been detected at which switch port and its VLAN ID If no packets are received at a port for a duration longer than the aging time the entry is deleted Mac Address Table No Mac Address Port 1 00 17 42 13 02 8E
36. longer switch over times For short 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 100 ms to 2 s Use priority assignment to specify a central switch as the root tis also recommended to assign a switch as the backup root For short switch over times all switches in the redundant topology should support the Rapid Spanning Tree Protocol and should not use hubs 5 2 5 1 Connecting the switches 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 links can now be created without taking loops into con sideration Loops can even be added on purpose in order to create redundant links A data path between Spanning Tree switches can be 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 hubs that do not support Spanning Tree Furthermore a data path can also consist of a connection of a Spanning Tree switch to A termination device network segment in which no loops may occur which consists of
37. of protection Protection class Humidity Operation Storage Air pressure Operation Storage Ambient compatibility Mounting position Connection to protective earth ground Weight Supply voltage US1 US2 redundant Connection Nominal value Permissible voltage range Permissible ripple within the permissible voltage range Test voltage Current consumption at US with 24 V DC maximum Maximum power consumption Smart Managed Compact Switch Ethernet Fast Ethernet Gigabit switch conforms to standard IEEE 802 3 802 3u 802 3ab Store and forward 4000 MAC addresses Version 2c At 10 Mbps 14880 pps packets per second At 100 Mbps 148800 pps At 1000 Mbps 1488100 pps MIB II and private SNMP objects from Phoenix Contact 128 x 110 x 69 depth from top edge of DIN rail 128 x 150 x 69 depth from top edge of DIN rail with FL MEM PLUG accessories 214 x 110 x 71 depth from top edge of DIN rail 214 x 150 x 71 depth from top edge of DIN rail with FL MEM PLUG accessories 0 C 60 C 40 C 85 C IP20 IEC 60529 Class 3 VDE 0106 IEC 60536 5 95 non condensing 5 95 non condensing 86 kPa 108 kPa 1500 m above sea level 66 kPa 108 kPa 3500 m above sea level Free from substances that would hinder coating with paint or varnish according to VW specification Perpendicular to a standard DIN rail By snapping it onto a grounded DIN rail 650 g typical 8 port device 1035 g t
38. points of the rings are implemented on the root bridge and on the backup root bridge The switch furthest away from the root bridge has a lower priority than the default setting e g 40000 The advantage of this constellation is that the individual rings are not adversely affected in the event of an error 5 2 6 2 Method of operation of the Spanning Tree Protocol STP Path costs Data with different speeds and methods e g 100 Mbps full duplex or 10 Mbps half duplex is distributed in a LAN segment The interconnection of network devices involves different transmission bandwidths and different performance characteristics which means there are also different path costs High path costs are associated with low performance connections e g 10 Mbps half duplex while low path costs are associated with connections with a high total transmission speed e g 100 Mbps full duplex 7471 en 06 PHOENIX CONTACT 5 17 FL SWITCH SMCS Priority and MAC address Components of a Spanning Tree domain Designated switch The switch that connects a specific LAN segment with the lowest path costs to the root switch Root port The other switches set the port with the lowest path costs or with the highest total transmis sion speed as the root switch in the forwarding state There is always just one root port per switch Exception The switch supports several Spanning Tree domains Designated ports Ports in the forward
39. the local conditions into account is vital All Factoryline devices must be grounded so 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 via grounding terminal blocks The module is connected to protective earth ground via the metal base element CONTACT FL SWITCH SMSC 8GT Ord No 2891123 ri Address 00 A0 45 06 04 02 xe x10 US1 GND US2 GND RI R2 MEM H Figure 2 11 Switch on a grounded DIN rail 7471 en 06 PHOENIX CONTACT 2 7 FL SWITCH SMCS 2 8 PHOENIX CONTACT 7471_en_06 Startup and functions 3 Startup and functions Ol 3 1 Basic settings The basic Ethernet functions do not have to be configured and are available when the supply voltage is switched on The procedure for switching to the supported operating modes via Smart mode is described in Section Using Smart mode on page 3 3 When transferring an existing configuration from one device to another only those set tings will be accepted which are possible for both devices Otherwise the default values will be used Example The RJ45 Gigabit ports are permanently configured to 1000 Mbps and the configuration i
40. the neighbor to the local switch If the neighbor is identified as a Phoenix Contact switch the port number is implemented as a link to the Port Configuration web page for the neighbor 7471 en 06 PHOENIXCONTACT 10 3 FL SWITCH SMCS 10 2 Representation of the topology in an engineering tool The LLDP information can be represented as such or similarly in engineering tools EthernetTopology EthernetTopology Figure 10 3 Topology 10 4 PHOENIX CONTACT 7471 en 06 Time settings 11 Time settings 11 1 Simple Network Time Protocol SNTP The Simple Network Time Protocol is defined in RFC 4330 SNTP clients in automation technology and is used to synchronize the internal system time with any NTP server which represents the timer i e the universal time The aim is to synchronize all the components in a network with the universal time and to thereby create a uniform time base Time synchronization provides valuable assistance when evaluating error and event logs as the use of time synchronization in various network components enables events to be assigned and analyzed more easily Clients should therefore only be activated on the most remote devices of an NTP network Time synchronization is carried out at fixed synchronization intervals known as polling inter vals The client receives a correction time by means of an SNTP server with the packet run time for messages between the client and server being inte
41. to be lost until the switch has rebooted If you select reset to factory default all configuration information will be reset to ist factory default settings Confirm Reset lt No gt PREV MENU APPLY Push Space Bar to select and reset the switch 74710012 Figure 4 37 Resetting to the default settings This screen can be used to reset the switch to the default settings or to restart it This screen can be opened by setting the Reset option to Reset Switch or Reset Switch to factory defaults in the Basic Switch Configuration screen and then selecting Apply or Save Reset Switch to factory defaults undoes any changes to the configuration and resets all IP parameters to the settings default upon delivery see Section 3 1 1 on page 3 1 Resetting to the default settings also resets the password to private For security reasons we recommend changing the existing password to a new one known only to you 4 4 2 4 IP address assignment via V 24 RS 232 In order for the switch to perform its function it requires an IP address which can be assigned via the serial interface If the switch already has an IP address it uses this existing IP address following a restart if it does not receive another address via BootP or V 24 RS 232 4 32 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics 4 4 3 Starting with faulty software firmware If t
42. wenn das Netzwerk diese Funktion unterst tzt Wenden Sie sich andemfalls an den Netzwerkadministrator um die geeigneten IP Einstellungen zu beziehen O IP Adresse automatisch beziehen Folgende IP Adresse verwenden IP Adresse Subnetzmaske 255 255 255 0 Standardgateway Folgende DNS Serveradressen verwenden Bevorzugter DNS Server Altemativer DNS Server gt Figure 4 2 Internet Protocol TCP IP Properties dialog box Enter the desired IP address of your computer not that of the SMCS in the IP address field and the corresponding subnet mask Close the dialog box with OK The device can now be accessed via a web browser In the address line of your browser enter the IP address of the SMCS in the following format http XXXx XXX XXX XXX After entering the IP address in the browser an overview page is displayed for the SMCS where no login is required After the correct user name and password have been entered the device configuration pages are loaded 4 2 Web based management WBM 4 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 7471 en 06 PHOENIX CONTACT 4 3 FL SWITCH SMCS network connection to the device has read acce
43. with more than seven switches along the relevant path then the Large Tree Sup port option must first be enabled on all devices 5 recommended that large tree support is not activated in networks with less than seven switches along the relevant path 7471_en_06 PHOENIX CONTACT 5 15 FL SWITCH SMCS 5 2 6 Example topologies 5 2 6 1 Redundant coupling of network segments In this example two network segments are connected via redundant data paths Two RSTP components have ports in the Blocking Discarding state highlighted in gray This is suf ficient to operate the network 5 16 PHOENIX CONTACT 1 pm Dana 2 ar E ej fe e e 3 mee use zs 25 ey BSI a 4 6 Maes usn zs Gs i m DOUDU 000000 0000000000000 ao ES afe are 10 14 9 ej
44. with the configuration The controller can transmit a different alarm configuration to the switch and therefore overwrite the configu ration settings 9 4 Process data communication 9 4 1 Control word The control word is a special process data item used to make settings which are not to be executed via a conventional process data item The control word of the management agent can be described with a command consisting of two bytes The device responds to this with the same command in the status word Byte 0 specifies the action and the new status byte 1 specifies the port number If a command is to apply to all the ports the value OxFF can be sent instead of the port number A command should only be sent once but never in a process data communication cycle Table 9 1 Assignment of the control word Action Status Byte 0 Byte 1 Link monitoring ON 0x01 Port or OXFF OFF 0x02 Port or OXFF POF SCRJ diagnostics ON 0x03 Port or OXFF OFF 0x04 Port or OXFF Power supply ON 0x05 0x00 OFF 0x06 0x00 9 6 PHOENIX CONTACT 7471_en_06 Operation as a PROFINET device Table 9 1 Assignment of the control word Action Status Byte 0 Byte 1 Interface removed ON 0x07 0x00 OFF 0x08 0x00 MRP ring failure ON 0x09 0x00 OFF 0x0a 0x00 Link enable status ON 0x20 Port OFF 0x21 Port 9 4 1 1 Additional process data The SMCS can send the following proces
45. zone to the UTC time Note The daylight saving time wil not be set automatically Current Addresses Primary Server IP Address 0 0 0 0 Backup Server IP Address 0 0 0 0 Broadcast IP Address 0 0 0 0 Please enter Server IP Address Backup Server IP Address and Broadcast Address in dotted decima notation e g 172 16 16 230 Note The Server IP Address is needed for Unicast Mode The Backup Server Address is optional In Broadcast Mode no IP Address is needed The Broadcast IP Address is needed only for Manycast Mode System Time SNTP Disabled System Date SNTP Disabled Enter password Apply Figure 11 1 Simple Network Time Protocol Configuration web page 11 2 2 SNMP The settings can be found under OID 1 3 6 1 4 1 4346 11 11 21 1 under the following path Full path iso 1 org 3 dod 6 internet 1 private 4 enterprises 1 phoenixContact 4346 pxcFactor yLine 1 1 flWorkDevice 11 flWorkTimeSynch 21 flWorkTimeSynchSnip 1 11 2 PHOENIX CONTACT 7471 en 06 Technical data and ordering data 12 Technical data and ordering data 12 4 Technical data General data Function Switch principle Address table SNMP Transmission capacity per port 64 byte packet size half duplex Supported MIBs Housing dimensions width x height x depth in mm 8 port version Housing dimensions width x height x depth in mm 16 port version Permitted operating temperature Permitted storage temperature Degree
46. 1 Enter password Figure 4 30 Mac Address Table web page The Clear button can be used to delete entries in the MAC address table LLDP General menu For information about LLDP please refer to Section LLDP Link Layer Discovery Protocol on page 10 1 4 2 3 5 Rapid Spanning Tree The Rapid Spanning Tree Protocol RSTP is a standardized method IEEE 802 1w IEEE 802 14 For information please refer to Section 5 Rapid Spanning Tree 7471 en 06 PHOENIXCONTACT 4 23 FL SWITCH SMCS 4 2 3 6 Media Redundancy Protocol The Media Redundancy Protocol is part of PROFINET standard IEC 61158 and is described in Section 6 Media Redundancy Protocol MRP Broadcast Limiter menu The Broadcast Limiter function can be used to limit broadcast and multicast traffic to an adjustable level in order to prevent a loss in performance on termination devices If the configurable bandwidth limit is reached further broadcast or multicast packets are rejected The set bandwidth applies for the incoming data traffic of each individual port The following configuration options are provided via WEB and SNMP Activation deactivation of broadcast traffic limitation on all ports Activation deactivation of multicast traffic limitation on all ports The bandwidth is selected from a drop down list and is specified in kbps or Mbps Broadcast Limiter Broadcast Disable Enable Multicast unfiltered Disable
47. 20 static groups can be created 7 2 Enabling the web pages for multicast filtering in WBM Activate WBM for the switches Switch to the General Configuration menu then to the User Interfaces page Activate Multicast Filtering and confirm by entering your pass word When activating Multicast Filtering under General Configuration User Interfaces the Multicast page under which the function can be configured and activated is enabled The multicast filtering mechanism must still be activated here 7 3 Static multicast groups Static multicast groups must be created manually on every switch and all ports that are used to contact group members need to be added The advantages of static groups are 1 Easy specification of network paths which the multicast data traffic of known groups is limited 2 No querier required see Query on page 7 7 The following marginal conditions must be observed Precise network documentation for path specification is required Possible redundant paths due to Spanning Tree must be taken into consideration during port assignment Fornetwork modifications and during servicing or expansion the multicast data paths must be restored 7471 en 06 PHOENIX CONTACT 7 1 FL SWITCH SMCS Conversion 7 3 1 Current Multicast Groups web page The table on this web page provides an overview of the current multicast groups c
48. 91068 1 2891071 1 2891181 10 2891288 10 7471 en 06 PHOENIXCONTACT 12 5 FL SWITCH SMCS Description continued 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 cable CAT6 pre assembled 12 5 m long Patch cable CAT6 pre assembled 15 m long Patch cable CAT6 pre assembled 20 m long Patch cable CAT5 pre assembled 0 3 m long Patch cable CAT5 pre assembled 0 5 m long 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 Lockable security element for FL CAT5 6 PATCH Co lor marking for FL CAT5 6 PATCH black lor marking for FL CAT5 6 PATCH brown lor marking for FL CAT5 6 PATCH blue or marking for FL CAT5 6 PATCH green lor marking for FL CAT5 6 PATCH gray or marking for FL CAT5 6 PATCH red lor marking for FL CAT5 6 PATCH
49. 91893 2891990 2891592 2891424 2891136 2891233 2891631 2891330 2891738 2891534 2891835 2891437 2891521 2891246 Pcs Pkt 10 10 10 10 10 10 10 5 5 5 10 10 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 If there are any problems that cannot be solved using this documentation please call our hotline 49 0 52 81 946 28 88 12 6 PHOENIX CONTACT 7471 en 06 Technical data and ordering data 7471_en_06 PHOENIX CONTACT 12 7
50. Alarm Contact menu Here you can set whether and for which events the alarm contact can be used Alarm Contact Use the alarm 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 4 28 Alarm Contact web page Diagnostics Event Table menu Here you will find a list of the latest important events The list contains up to 200 entries from the 200th entry onwards the oldest entries are overwritten FIFO principle first in first out If old entries are overwritten by new entries a corresponding note is displayed under the event table Event Table System Up Time B min 4 sec Time Event 3 sec Link up on Port 1 D sec RSTP disabled D sec Power Supply US1 lost D sec Boot Enter password n EN Figure 4 29 Event Table web page The Clear button can be used to delete entries in the event table The following events are listed in the event table Event Table cleared Password has been changed Password has not been changed successfully Configuration has been saved configuration has been modified the first time after the
51. Ba u Nicht zulassige Verbindung Figure 6 3 Impermissible example PHOENIX CONTACT 6 3 7471_en_06 FL SWITCH SMCS 6 3 Enabling web pages for using MRP in WBM Activate WBM for the switches e g using Factory Manager Switch to the General Configuration menu then select the User Interfaces page Activate Redundancy and confirm by entering your password Activating Redundancy under General Configuration User Interfaces does not acti vate a redundancy mechanism In the WBM menu the Media Redundancy page under which the function can be configured and activated is enabled 6 4 Configuration of MRP 6 4 1 MRP general The MRP General web page shows the current parameters set for using the protocol The following information is displayed Operating mode disabled MRP client or MRP manager Manager function present or missing Ring status if the switch is operating as an MRP manager OK ring closed or Fail ring open Topology modification counter Time of last topology modification Ring port numbers and status of the ports forwarding or blocking MRP General MRP Operating Mode MRP Manager MRM Manager License Present Ring Status Info Ring closed OK System Up Time 0 days 1 hours 14 minutes 25 seconds Last Status Change days 0 hours 31 minutes 27 se
52. CT SPD FD Yellow Flashing Switch is in Smart mode see Using Smart mode page 3 3 Example In Figure 1 5 the LED indicators have the following meaning A The MODE switch has been set to display the duplex mode FD the mode LEDs now indicate that port 1 and port 3 are in full duplex mode port 2 is not operating at all and port 4 is in half duplex mode 7471 en 06 PHOENIX CONTACT 1 5 FL SWITCH SMCS B The switch has been set to display the data transmission rate SPD the mode LEDs now indicate that port 1 is operating at 10 Mbps port 2 is operating at 1000 Mbps port 3 is oper ating at 100 Mbps and port 4 is not operating at all MODE 0 ACT SPD FD LINK US1 US2 FAIL 0 g 0 2 3 4 7 Mode Figure 1 5 Example for status indicators ACT SPD FD LINK US1 US2 FAIL g 1 Mode 74710001 1 6 PHOENIX CONTACT 7471_en_06 Mounting and installation 2 Mounting and installation 2 1 Mounting and removing the SMCS Mount the SMCS 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 End clamps E NS 35N Order No 0800886 can be mounted to the right and left of the SMCS to stop the modules from slipping on the DIN rail Mounting 1 Place the module onto the DIN rail from above
53. Due to the edge property of ports they switch to Forwarding immediately In the second case the port generates a data path interruption in order to suppress loops accordingly Atleast one port in the Forwarding state is always at a data path between two Spanning Tree switches so that the data path can be integrated into the network 5 2 4 3 Fast forwarding If the Spanning Tree Protocol is deactivated at a port the corresponding port is in Fast Forwarding mode A fast forwarding port Ignores all BPDUs that are received at this port Does not send any BPDUs Switches to the Forwarding state immediately after establishing the data link Termination devices connected to this port can be accessed immediately Port STP Status in WBM on the STP Port Configuration page must be set to Disabled to activate fast forwarding 7471 en 06 PHOENIXCONTACT 5 11 FL SWITCH SMCS Frame duplication Due to the fast switch over times of RSTP frames may be duplicated and the order of frames may be changed 5 2 4 4 Establish a connection to the switch The procedure is described in Section Management via local V 24 RS 232 communication interface on page 4 29 Set Spanning Tree Enabled on the following page in the Redundancy field and select Save Enabling via serial interface MMS MCS HyperTerminal Datei Bearbeiten Ansicht Anrufen bertragung 2 Dae 55
54. If the TTL elapses the neighbor information is deleted An SMCS manages a maximum of 50 items of neighbor information all other information is ignored If several neighbors are displayed on one switch port then there must be at least one other switch hub which does not support or has not activated LLDP installed between this switch and the neighbor indicated me 7471_en_06 PHOENIX CONTACT 10 1 FL SWITCH SMCS Table 10 1 Event table for LLDP Event Activity of the local Response of the LLDP agent neighboring LLDP agent Activate LLDP agent or Transmit LLDP BPDUs to all Include sender in the list of device startup ports neighbors Deactivate LLDP agent or Transmit LLDP BPDUs with Delete sender from the list software reset a TTL value of 0 seconds to all ports of neighbors Link up Send port specific LLDP BPDUs Include sender in the list of neighbors Link down Delete all neighbors for this port Timer Message Transmit Interval Cyclic transmission of BPDUS to all ports Update information Aging Time To Live Delete neighbor information Receiving a BPDU from a new neighbor Extend list of neighbors and respond with port specific BPDU Include sender in the list of neighbors Link Layer Discovery Protocol Link Layer Discovery Protocol LLDP Status Disable Enable Message Transmit Interval 30 s 5s up to 32768s
55. Interfaces Figure 8 2 Current VLANs web page When the maximum number of set up VLANs is reached the following text appears below the key for the member states The switch supports only 32 VLANs Further VLANs will be refused 7471_en_06 PHOENIX CONTACT 8 3 FL SWITCH SMCS 8 4 1 Static VLANs Static VLANs be created on this web page Up to 31 new VLANs can be created VLAN 1 to VLAN 32 If more are created a corresponding message will be displayed Static VLANs Select VLAN VLAN ID 5 2 up to 4094 VLAN Name BU 2 Ports 1 8 FF UUUUU F toggle all HJ U Untagged F Forbidden None Enter password Apply Delete Figure 8 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 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 F For
56. OENIX CONTACT 3 1 FL SWITCH SMCS transmission of SNMP traps is deactivated and the switch has no valid trap destination IP address OID 1 3 6 1 2 1 17 4 2 The available setting range is 10 825 seconds For static configuration an aging time of 300 seconds is recommended il The aging time is set using the dotidTpAgingTime MIB object RMON history is not activated LLDP is activated 3 2 PHOENIX CONTACT 7471_en_06 Startup and functions 3 2 Using Smart mode Smart mode enables the user to change the operating mode of the switch without having to access the management interface The SMCS offers the following setting options via Smart mode Reset to the default settings Set PROFINET mode Exit Smart mode without changes 3 2 1 Activating Smart mode The mode button is used to call exit Smart mode and to selectthe desired setting The three mode LEDs indicate the mode that is currently set and the mode which will apply when exit ing Smart mode 3 2 1 1 Calling Smart mode e Following the switch boot phase as soon as the three mode LEDs go out press and hold down the mode button for more than five seconds If Smart mode is active the three LEDs will flash e When Smart mode is started the switch is initially in the Exit without changes state 3 2 1 2 Selecting the desired setting e To select the various settings press the mode button briefly and select the desi
57. Octets Broadcast Multicast Octets Fragments Undersized Packets Oversized Packets CRC Alignment Errors Drop Events Jabbers Collisions Clear counters Ports Port Statistics menu This menu provides detailed statistical information about the volume of data for each individual port On this page additional counter states can be set to zero for all ports i 126 uu A 2737 You can set the statistic counters of all switch ports to zero Enter password 7 Port Configuration of port 1 General R STP Note This web page will be refreshed in 24 sec automatically change the interval at the web page Device Configuration User Interfaces Port Statistics web page 7471_en_06 PHOENIX CONTACT 4 19 FL SWITCH SMCS 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 abian A a a System Up Time 4 day s 1 h 17 min 12 sec End of last measurement 4 day s 1 h 17 9 sec Measurement Interval 30 sec Notice This web page will be refreshed in 10 sec automatically Refresh Figure 4 26 Utilization web page 4 20 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics C2 Ports Port Mirroring menu Activation deactivation and s
58. PROFINET device 9 2 3 Configuration via the engineering tool The universal parameter editor UPE can be used to configure the switch via the engineering tool PC Worx Activation deactivation of PROFINET alarms Configuration of port mode Configuration of port state 9 2 4 PROFINET flashing function If the switch is requested to flash in PROFINET mode by the engineering tool the LEDs selected by the mode button flash 9 2 5 Device naming In order to start up a switch in PROFINET mode each switch must be assigned a name once i e each PROFINET device is assigned a unique device name A device search Read PROFINET function in PC Worx is performed via the engineering tool where all the devices that can be accessed in the network are listed After identifying unknown devices via the specified MAC address or the Flashing function the device name configured in the engineering tool is saved permanently on the switch with the Assign function The device name can also be assigned via WBM before switching to PROFINET mode 9 2 6 Operating in the PROFINET environment A switch that has already been assigned a name starts in PROFINET mode without an IP address and waits for the assignment of an IP configuration flashing of the LED for the currently active mode Once the project has been translated and downloaded to the control System the control system implements startup and configuration A
59. Spanning Tree Status Disable Enable Priority 32768 D up to 61440 in steps of 4096 This bridge uses the following parameter if this bridge is the root bridge Maximum Age of STP po _ Information Hello Time 2 5 1s up to 10s Forward Delay 5 4s up to 30s Enter password Apply Figure 5 16 Specifying the root switch priority Specifying the root port or designated port 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 STP 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 5 2 6 6 Disabling the Spanning Tree Protocol using the fast forwarding function One ofthe following requirements must be met so that the Spanning Tree Protocol can be disabled for a port Atermination device is connected to the port Additional infrastructure components are connected to the port The corresponding network segment does not contain any loops Additional infrastructure components are connected to the port forming a Spanning Tree of their own No additional redundant connections to this network segment are per
60. T Please observe the following notes General terms and conditions of use for technical documentation Phoenix Contact reserves the right to alter correct and or improve the technical documen tation 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 user documentation does not consti tute any further duty on the part of Phoenix Contact to furnish information on modifications to products and or technical documentation You are responsible to verify the suitability and intended use of the products in your specific application in particular with regard to observ ing the applicable standards and regulations All information made available in the technical data is supplied without any accompanying guarantee whether expressly mentioned im plied or tacitly assumed In general the provisions of the current standard Terms and Conditions of Phoenix Contact apply exclusively in particular as concerns any warranty liability This manual including all illustrations contained herein is copyright protected Any changes to the contents or the publication of extracts of this document is prohibited Phoenix Contact reserves the right to register its own intellectual property rights for the product ident
61. The upper holding keyway of the module must be hooked onto the top edge of the DIN rail Push the module from the front towards the mounting surface B A Al A ty AZ N uy Figure 2 1 Snapping the SMCS onto the DIN rail 2 module has been snapped on properly check that it is fixed securely on the DIN rail Check whether the positive latch is facing upwards i e snapped on correctly Removal 1 Pull down the positive latch using a suitable tool e g screwdriver The positive latch remains snapped out Then swivel the bottom of the module away from the DIN rail slightly A Next lift the module upwards away from the DIN rail B B B1 552 B2 Figure 2 2 Removing the SMCS 7471_en_06 PHOENIX CONTACT 2 1 FL SWITCH SMCS 2 2 Installing the Smart Managed Compact Switch 2 2 1 Connecting the 24 V DC supply voltage We recommend securing the device with a 2A fuse slow Appropriate fuse holder or thermo magnetic circuit breaker see Accessories in Chapter 12 The SMCS is operated using a 24 V DC voltage which is applied via COMBICON If required the voltage can also be supplied redundantly see Figure 2 4 If redundant power supply monitoring is active default setting an error is indicated if only one voltage is applied A jumper between US1 and US2 prevents this error message However it is also possible to deactivate monitoring in web based management or via SNMP
62. X PN Six Fast Ethernet ports in RJ45 format and two fiber optic ports as SFP slots FL SWITCH SMCS 6TX 2SFP Sixteen Fast Ethernet ports in RJ45 format FL SWITCH SMCS 16TX Fourteen Fast Ethernet ports in RJ45 format and two fiber optic ports in SC format for multi mode FL SWITCH SMCS 14TX 2FX Fourteen Fast Ethernet ports in RJ45 format and two fiber optic ports in SC format for single mode FL SWITCH SMCS 14TX 2FX SM Cag er ey S rs _ ce ME s Figure 1 1 Examples for SMCS switches 7471 en 06 PHOENIX CONTACT 1 1 FL SWITCH SMCS Maximum performance Maximum availability Quick media redundancy All information Port mirroring Future proof networks for the highest demands 10 100 1000 Mbps on each RJ45 port 1000 Mbps for SFP fiber optic ports and 100 Mbps for SC fiber optic ports Maximum network availability A device design that does not use a fan the redundant power supply and conformance with all relevant industrial standards in terms of EMC climate mechanical load etc ensure the highest possible level of availability Redundancy can also be created with standards the Rapid Spanning Tree Protocol or MRP Media Redundancy Protocol ensure safe operation of the entire network regardless of topology even in the event of a cable interrupt Clear information You can clearly label your device and each individual port using the large labeling fields Two LEDs per port with swit
63. _en_06 Multicast filtering Example In the following table the ports for each switch to which the receivers of the multicast data are connected are indicated with an X See Figure 7 3 on page 7 6 as an example config uration Table 7 1 Multicast port assignment to the switches Switch 1 Switch 2 Switch 3 Switch 4 Switch 5 Switch 6 Switch 7 Port 1 Port 2 X X X X X X X Port 3 Port 4 X X Port 5 X Port 6 X Port 7 X Port 8 X X Please note that possible redundant paths resulting from Rapid Spanning Tree must be taken into consideration for multicast group creation 7471 en 06 PHOENIX CONTACT 7 5 FL SWITCH SMCS Nummer des Switches B Nummer des SSS SS Ausgangs Ports Eee ap el E e lt pocos e B DN Empfan
64. al alignment of the SFP modules P Figure 2 7 Inserting the SFP modules 7471 en 06 PHOENIX CONTACT 2 5 FL SWITCH SMCS Connecting the fiber optic cable e Ensure correct mechanical alignment when inserting the fiber optic connectors Removing the fiber optic connectors e Press the arresting latch A and pull out the connector B Figure 2 8 Removing the fiber optic connectors Removing the SFP modules e Remove the fiber optic connector before removing the SFP module Turn the release latch A down and pull out the SFP module B S ie B Figure 2 9 Removing the SFP modules 2 6 PHOENIX CONTACT 7471_en_06 Mounting and installation 2 2 5 V 24 RS 232 interface for external management The 6 pos Mini DIN female connector provides a serial interface to connect a local man agement station It enables the connection to the management interface for an appropriate cable please refer to page 12 1 a VT100 terminal or a PC with corresponding terminal emulation Set the following transmission parameters RS 232 V 24 interface Bits per second 38400 Data bits 8 non Po Parity None Stop bits 1 L 24 3G7 les Flow control None 5 22 1Q RxD Figure 2 10 Transmission parameters and assignment of the V 24 RS 232 interface 2 3 Grounding Grounding protects people and machines against hazardous voltages To avoid these dangers correct installation taking
65. bidden Ports with Forbidden status do not belong to the selected VLAN and cannot be added dynamically to this VLAN via GVRP None Ports with status are not integrated into the VLAN 8 4 PHOENIX CONTACT 7471_en_06 Virtual Local Area Network VLAN 8 4 2 VLAN port configuration Port specific VLAN settings can be made on this web page VLAN Port Configuration Port Number 1191 Module HS Interface x1 Name Port 1 Port VLAN ID 72 Port Priority Ingress Filtering Disable Enable Enter password Apply Figure 8 4 VLAN port configuration If Ingress Filtering is set to 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 Acorresponding 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 8 7 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 8 4 3 VLAN port configuration table This web page provides an overview of the main VLAN settings for the ports Clickin
66. ble Disable Enable Operational Edge Port Not operating as an edge port Admin Edge Port Non Edge Port Edge Port Priority 128 D up to 240 in steps of 16 Admin Path Cost 0 hueco E Path Cost 20000 Forward Transitions 0 Designated Root 8000 00 40 45 07 79 35 Designated Bridge 8000 00 40 45 07 79 35 Figure 5 5 R STP Port Configuration Table web page An overview of the main settings for each port is provided here 5 2 1 1 R STP port configuration Modifications of properties can result in complete reconfiguration of Rapid Spanning Tree It is recommended that a suitable root switch and a backup root switch are specified using corresponding priority assignment This page displays the valid R STP configuration settings for the selected port If termination devices or subnetworks are connected without RSTP or STP via a port itis 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 5 2 1 2 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 o
67. chable information ensure that you always have sufficient information on site A web server and an SNMP agent are provided for diagnostics maintenance and configuration via the network A terminal access point can be used for on site operation Port mirroring can be used to monitor data traffic on the network connections or as an important service function Features and fields of application of the SMCS Maximum performance through Gigabit support on all ports Increased network performance by filtering data traffic Local data traffic remains local The data volume in network segments is reduced Easy network expansion and network configuration Coupling copper segments with different transmission speeds Automatic detection of 10 Mbps 100 Mbps or 1000 Mbps data transmission speed with autocrossing for the RJ45 ports Flexible use of fiber optic modules in SFP ports ncreased availability through the use of redundant transmission paths with the shortest Switch over times using Rapid Spanning Tree and fast ring detection Support of various topologies and meshed structures as well as ring topologies with special ring detection Switch configuration using web based management SNMP or locally via a V 24 RS 232 interface Port mirroring Topology detection using LLDP Link Layer Discovery Protocol Address assignment via BootP DCP or statically Media Redundancy Protocol MRP supported as a client
68. conds Status Change Counter Em Primary Ring Port Port 6 Status Forwarding Sec Ring Port Port 5 Status Blocking Note This web page will be refreshed in 29 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 6 4 MRP General web page for an MRP manager 6 4 PHOENIX CONTACT 7471 en 06 Media Redundancy Protocol MRP MRP General MRP Operating Mode MRP Client MRC Manager License Missing Ring Status Info Client doesnt know System Up Time 0 days 0 hours 24 minutes 31 seconds Last Status Change days 0 hours minutes 0 seconds Status Change Counter 0 MEN AD Primary Ring Port Port 6 Status Forwarding Sec Ring Port Port 5 Status Link Down Note This web page will be refreshed in 28 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 6 5 MRP General web page for an MRP client 6 4 2 MRP configuration The MRP Configuration web page is used to configure the protocol parameters The following configuration parameters are displayed Device role disabled MRP client or MRP manager Selection of the ring ports that are integrated in the MRP ring Selection of the VLAN ID for tagging mode MRP Configuration 9 Disable Client Ring Ports 2 Enter password Device Role Figure 6 6 MRP Configuration web page 6 4 2 1 Usin
69. d the associated port is deleted from the groups 7 8 PHOENIX CONTACT 7471 en 06 Multicast filtering 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 manage ment VLAN Extended multicast source detection see 7 5 Multicast source detection on page 7 10 Forward unknown multicasts to querier Select whether a group which forwards packets to the querier is created for unknown multi cast packets Block unknown multicasts at querier Select whether unknown multicast packets are to be blocked at the querier Query Port definition Select the port to which IGPM queries are to be sent Query port configuration Auto Query Port FRD MRP Activates the automatic selection of additional query ports by means of fast ring detection and or MRP 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 If this 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 deacti vated in order to force a new m
70. ding to EN 61000 4 6 IEC 1000 4 6 conducted Additional certification RoHS Differences between this version and previous versions Rev 00 First version Rev 01 Functions of firmware 2 20 extended Rev 02 Functions of firmware 3 00 and hardware versions extended Rev 03 Fiber optic transmission lengths corrected Rev 04 Operating temperature range adapted Rev 05 Multicast source detection extended Rev 06 Integration of 16 port versions Class B residential Class B residential 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 Test intensity 3 criterion A EEE 2002 95 EC WEEE 2002 96 EC 12 4 PHOENIX CONTACT 7471 en 06 Technical data and ordering data 12 2 Ordering data Products Description Smart Managed Compact Switch with eight Gigabit ports in RJ45 format Smart Managed Compact Switch with six Gigabit ports in RJ45 format and two SFP slots Smart Managed Compact Switch with six Fast Ethernet ports in RJ45 format and two SFP slots Smart Managed Compact Switch with eight Fast Et
71. e SWITCH SMOS The settings become effective after saving the configuration and rebooting the device Enter password Figure 9 1 Operating Mode web page Switching to Default When the switch is reset to Default mode from PROFINET mode the following settings are mode made remains active with the values set by default P address assignment is set to BootP Thestation name for the switch does not change If no station name has been specified the device type is entered It is recommended to save the new configuration after changing operating mode Please note that some configuration modifications only take effect after a restart 9 2 Switch as a PROFINET IO device 9 2 1 Configuration in the engineering tool 9 2 1 1 Specifying the bus configuration The switch can be operated as a PROFINET IO device if it is integrated under a control system in the bus configuration in the engineering tool A GSD file and an FDCML file for integration can be downloaded at www download phoenixcontact com 9 2 PHOENIX CONTACT 7471_en_06 Operation as a PROFINET device WORX Detei Bearbeiten Ansicht Projekt Code Onine Extras 2 _ 0 meje gt amp iam phase IE amp 69 57 ae me Bo a ro OY He Ger tedetails frawitchs koffer de 192 168 0 7 PROFINET Einstellungen
72. eb Based Management by selecting a link in this area orthe 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 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 go to our internet web page Your browser must be properly configured and you need internet access for this to function properly Figure 4 3 Information web page for the SMCS General instructions Contains a brief description of WBM and a navigation tree site map which is linked to every page of WBM 7471 en 06 PHOENIX CONTACT 4 5 FL SWITCH SMCS 4 2 3 2 Device information 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 Figure 4 4 General menu Phoenix Contact GmbH amp Co KG D 32823 Blomberg 49 0 5235 3 00 FL SWITCH SMCS 8GT 28 91 123 11 10 81 42 28 1 01 1 00 01 D0 AD 45 07 79 35 FL SWITCH SMCS Smart Managed Compact Switch Unknown Unknown 192 168 100 11 255 255 255 0 0 0 0 0
73. ecessary MRP manager function can be implemented with the FL MEM Plug MRM configuration memory Order No 2891275 Please note that MRP is disabled by default upon delivery Avoid the simultaneous use of both MRP and RMON History The RMON History function can be switched off on the Switch Station gt Diagnostics gt Utilization Overview web page 6 2 MRP manager For the switch the MRP manager function is provided by an MEM plug Since the manager function is linked to a replaceable module the following options are available manager module is present MRP Manager mode is not available and cannot be selected manager function module is inserted during runtime or if itis already present during the boot process MRP Manager mode is available in the user interfaces or can be accepted manager function module is present during the boot process and MRP Manager mode is activated in the saved switch configuration the MRP manager function is automatically enabled f no manager function module is present during the boot process and the MRP manager is enabled in the saved configuration the device activates a safe state in which one of the ring ports is set to blocking mode to prevent loop generation An error message appears which would also be displayed in the event of a ring error informing the user of this configuration error After inserting the manager function modu
74. ecute to test the communica tion path from the switch to the trap receiver SNMP Trap Connection Test For a test of the connection between this snmp agent and a network management tool you have to configure the destination ip address for the trap and sending traps must be enabled Then you can send the trap trapManagerConnection with the snmp object id 1 3 6 1 4 1 4346 11 11 3 0 99 see FL SWITCH SMCS MIB from this device to a trap receiver using the button below Enter password Figure 4 8 SNMP trap test 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 TRIP 192 168 100 26 Downloadable File Name SMCS_FWI xx bin Update without Reboot REES O Update with automatic Reboot TFTP Update Status Firmware update not started To start the new software the device must be rebooted Note The device reboots with the last stored configuration save here before Logout Figure 4 9 Software Update web page A reset is not carried out automatically following a firmware update The desired option can be selected in WBM There are no assurances that all existing configuration data will be retained after a firm ware update downgrade Please therefore check the configuration settings or reset the device to the default delivery settings ATTENTION A voltage failure during a firmware
75. eset trapPowerSupply 1 3 6 1 4 1 4346 11 11 3 0 4 Sent each time the redundant power supply fails trapRstpRingFailure 1 3 6 1 4 1 4346 11 11 3 0 6 Sent in the event of a link interrupt in the redundant RSTP ring trapManagerConnection 1 3 6 1 4 1 4346 11 11 3 0 99 Trap to test the connection between the SNMP agent and the network management station 7471_en_06 PHOENIX CONTACT 4 27 FL SWITCH SMCS 4 3 2 1 0 std I 8802 iso8802 I 2 I 1 ieee802dot1mibs 2 IIdpMIB 1 system 2 interfaces 3 address translation 4 ip 5imp 7 udp 8 egp 10 transmission 11 snmp 16 rmon 17 dot1dBridge 30 ianaif Type 31 ifMib Figure 4 33 Tree structure of the MIB 1 iso 3 org m 6 dod 1 internet 4 private 6 snmpV2 Tree structure of the MIB 1 enterprises 3 snmpModules 4346 phoenixContact 1 snmpMIB 5 security 6146b029 Notall devices support 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 The individual SNMP objects are located in the respective MIBs and can be downloaded from the Phoenix Con
76. et 3 1 3 1 1 Delivery state default settings see 3 1 3 2 Using Smart mode Bi een 3 3 3 2 1 Activating Smart mode sse nenne 3 3 3 8 Frame switching sni Errem E ee Eee 3 6 3 3 1 Store and forward aise iaer 3 6 3 3 2 Multi address function 3 6 3 3 3 Learning addresses nnne enne 3 6 3 3 4 PrioritiZatiori iei ero tiere Pep eme RR ERE 3 7 4 Configuration and diagnostics estu o ie Ee res 4 1 4 1 Making contact between the SMCS and PC for initial configuration 4 1 4 1 1 Operation with static IP addresses 4 1 4 2 Web based management WBWM sse nennen 4 3 4 2 1 General f nction iR e EUR ege reete deii MER et 4 3 4 2 2 Requirements for the use Of WBM ee 4 4 4 2 3 Functions information in WBM uerssenssennnnennnnnnnnnnnnnnnnnnnnn nn 4 5 4 3 Simple Network Management Protocol 5 4 25 4 3 1 General function iuit tine i t RR 4 25 4 3 2 Schematic view of SNMP management 4 25 7471 en 06 PHOENIX CONTACT i FL SWITCH SMCS 4 4 Management via local V 24 RS 232 communication interface 4 29 4 4 1 General functions e
77. ets with the value 2 or 3 in the priority field are transmitted with the second lowest priority Data packets with values between 4 and 5 in the priority are transmitted with second highest priority by the switch Data packets with values between 6 and 7 in the priority field are transmitted with highest priority by the switch Processing rules The switch controller in the SMCS 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 VLAN prioritization tag are forwarded according to the queues listed above A All remaining data is assigned to the low priority queue 3 3 4 1 Class of Service CoS Class of Service refers to a mechanism used to take into consideration the value of the priority field value 1 to 7 in VLAN data packets with a tag The switch assigns the data streams in various processing queues depending on what priority information is contained in the CoS tag The switch supports four internal processing queues 3 3 4 2 Quality of Service QoS Quality of Service affects the forwarding and handling of data streams and results in individ ual data streams being given differential treatment in general in a preferred way QoS can be used e g to guarantee a transmission bandwidth for individual data streams The switch uses QoS in connection with prioritizatio
78. etting 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 Number 1 2 ee amp ll 3 8 Source Port Ingress Traffic 0 Source Port Egress Traffic NN aa a 2 Destination Port Mirroring Status 9 Disable Enable Enter password Apply Figure 4 27 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 596 The destination port is operated at 10 Mbps Therefore with the same volume of data the destination port reaches a capacity of 5096 For versions with 16 ports only A selected port that is used as a destination port will only forward the packets redirected to it from other source ports It will no longer forward packets that are to be sent directly to this port In addition it will no longer forward incoming packets to other switch ports The availability of the network based user interfaces of the switch WEB SNMP etc is no longer ensured via this port 7471 en 06 PHOENIX CONTACT 4 21 FL SWITCH SMCS Diagnostics
79. f 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 specified using the priority 7471 en 06 PHOENIX CONTACT 5 5 FL SWITCH SMCS 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 R STP Port Configuration Port Number 1 STP Port State Forwarding STP Enable Disable Enable Operational Edge Port Not operating as an edge port Admin Edge Port Non Edge Port Edge Port Priority 128 0 up to 240 in steps of 16 Admin Path Cost 0 ie Path Cost 20000 Forward Transitions 0 Designated Root 8000 00 A0 45 07 73 35 Designated Bridge 8000 00 A0 45 07 79 35 Designated Port 8001 Port Priority 128 Port Number 1 Designated Cost 0 Enter password Apply Protocol Compatibility Port Mode Port is in the Rapid Spanning Tree mode Enter password ForceRSTP Port Configuration of port 1 General RJSTP Statistics of port 1 General Figure 5 6 R STP Port Configuration web page Port number Indicates the number of the port currently selected Port name Indicates the name of the port STP port state
80. for operation with 1000 Mbps Gigabit cables with four twisted pairs eight wires which meet the requirements of Cat 5e as a minimum must be used 7471 en 06 PHOENIX CONTACT 2 3 FL SWITCH SMCS Table 2 1 Pin assignment of RJ45 connectors Pin number 10BASE T 10 Mbps 100BASE T 100 Mbps 100Base T 1000 Mbps 1 TD transmit TD transmit BI_DA bidirectional 2 TD transmit TD transmit BI_DA bidirectional 3 RD receive RD receive BI_DB bidirectional 4 BI_DC bidirectional 5 BI_DC bidirectional 6 RD receive RD receive BI_DB bidirectional 7 BI_DD bidirectional 8 BI_DD bidirectional 2 4 PHOENIX CONTACT 7471_en_06 Mounting and installation 2 2 4 Use of SFP slots The SFP slots are used by SFP modules fiber optic fiberglass modules in SFP format By selecting SFP modules the user can specify whether the switch has multi mode or single mode fiber optic ports for example The SFP modules are available separately as accessories see Technical data and order ing data on page 12 1 2 2 4 1 Elements of the SFP modules LWL Mechanische Verriegelung Anschluss Elektrische Ausrasthebel Anschlusskontakte Figure 2 6 Elements of the SFP modules 2 2 4 2 Mounting the SFP modules Inserting the SFP modules e Insert the SFP modules in the relevant slots on the switch e Ensure correct mechanic
81. g MRP in VLAN mode When using VLANs a standard tag with the highest priority is assigned to the MRP packets In addition a VLAN ID can be specified in the MRP configuration Only static VLAN entries which are listed in WBM under Switch VLAN Static VLAN can be used The tag is only added to the MRP packet if the port to which the packet 1 sent is operating in tagging mode 7471_en_06 PHOENIX CONTACT 6 5 FL SWITCH SMCS 6 6 PHOENIX CONTACT 7471_en_06 Multicast filtering 7 Multicast filtering Multicast 7 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 multi cast 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 transmission is reduced because each packet is only transmitted once A maximum of 128 multicast groups can be created automatically for IGMP snooping In addition a maximum of
82. g on the relevant port number opens the VLAN Port Configuration web page where the settings can be modified This table can be used to assign incoming packets to the created VLANS if the packets reached the port without a VLAN tag 7471 en 06 PHOENIX CONTACT 8 5 FL SWITCH SMCS Vian Port Configuration Table Port PVID Prio Ingress Filtering 1 1 7 disable 2 1 0 disable 3 18 0v disable 4 1 5v enable a 8 disable e B om disable v 1 0 disable v om This table indicates what Port VLAN ID and Priority wil be assigned to any untagged data coming in each port Enter password Figure 8 5 VLAN Port Configuration Table menu 8 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 Ensure that the administrator has access to this VLAN il Warnings displayed when setting up configuring VLANs indicate configuration errors untagged port belongs to multiple VLANs The port assignment untagged and PVID 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 8 6 PHOENIX CONTACT 7471_en_06 Virtual Local Area Network VLAN
83. ger aga Q f F3 Empfanger E 1 xmi women nn e f ej a n ej MET et Es s si TTE Empf nger Empf nger Empfanger Empfanger Figure 7 3 Configuration example Possible redundant paths resulting from Rapid Spanning Tree must be taken into consideration for multicast group creation 7 6 PHOENIX CONTACT 7471_en_06 Multicast filtering 7 4 Dynamic multicast groups 7 4 1 Internet Group Management Protocol IGMP IGMP on Layer 3 The Internet Group Management Protocol describes a method for distributing information via multicast applications between routers and termination devices at IP level Layer 3 Whe
84. grated in the time calculation in the client The local system time of the client is thus constantly corrected Synchronization in the NTP is carried out in Universal Time Coordinated UTC format The current system time is displayed as Universal Time Coordinates UTCs This means that the displayed system time corresponds to Greenwich Mean Time The system time and the UTC Offset provide the current local time The switch supports the use of the SNTP protocol only in client mode i e switches or other network components only ever receive a time from a time server but do not transmit their own times Each client synchronizes its system time with that of an SNTP server Time synchronization is carried out at fixed synchronization intervals Thelocal system time of the client is thus constantly corrected Synchronization is carried out in Universal Time Coordinated UTC format 7471 en 06 PHOENIXCONTACT 11 1 FL SWITCH SMCS 11 2 Configuring SNTP 11 21 WBM The use of SNTP can be configured in the General Configuration SNTP Configuration menu Simple Network Time Protocol Configuration SNTP Status Disable Enable Unicast Mode Operating Mode Broadcast Mode Manycast Mode Poll Interval 14 4h 33m 4s v Select how often the loca system clock will be resynchronized by polling the SNTP Server UTC Offset 00 UTC GMT London Select the offset of the local time
85. guration and diagnostics SNMP Trap Configuration menu SNMP agent The Sending traps function can be globally enabled disabled here SNMP Trap Configuration SNMP Agent Sending traps Disable Enable Trap Destination First trap manager IP address 0 0 0 0 Second trap manager IP address Please enter IP addresses in dotted decimal notation e g 172 16 16 230 0 0 0 0 Trap Configuration SNMP Authentification Failure 9 Disable Enable Password modification Disable Enable Firmware status changed O Disable Enable Configuration not saved Disable Enable Power Supply Disable Enable R STP Ring Failure Disable Enable R STP New Root Disable Enable R STP Topology changed Disable Enable Cold Start Disable Enable Warm Start Disable Enable Link Down Disable Enable Link Up O Disable Enable MRP Ring Fail Disable 9 Enable IP conflict O Disable Enable Enter password Apply Figure 4 7 SNMP Configuration web page Trap destination This part of the table is used to view or modify the IP addresses of the two trap receivers Trap configuration The sending of traps can be enabled disabled individually here 7471_en_06 PHOENIX CONTACT 4 9 FL SWITCH SMCS SNMP trap Once the Send trap function has been activated and the trap managers have been defined connection test using the IP addresses test traps can now be sent using Ex
86. he data packet is ignored General VLAN Configuration Current Tagging Status The switch is in the mode Transparent The modified adjustments become effective after saving the configuration and rebooting the device Maximal number of VLANs 32 Configured VLANs 1 Enter password Apply Figure 8 1 General VLAN Configuration menu The switch supports a maximum of 32 different VLANs After having made changes to the tagging mode reboot the device to activate the modification 8 2 PHOENIX CONTACT 7471_en_06 Virtual Local Area Network VLAN 8 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 VLANs are listed here A distinction is made between untagged U group members non members see possible states on page 8 4 Current VLANs VID Status Group Membership static Ports 1 8 Uuuuuuuu 1 Management Vian 12 static Ports 1 8 U Un f 24 static 8 2 E 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 Note This web page will be refreshed in 23 sec automatically change the interval at the web page Device Configuration User
87. he software firmware installed on the SMCS is faulty you can restore or update the firmware by means of an update Procedure Connect the switch to your PC via the serial V 24 RS 232 interface Make sure that your HyperTerminal is configured correctly see configuration on page 4 29 Restart the switch interrupt the boot process by pressing any key gt Phoenix Contact Smart Managed Compact Switch lt Phoenix Contact GmbH amp Co KG www phoenixcontact com BIOS version x xx Press any key to stop booting ENTER a TO DOWNLOAD SWITCH SOFTWARE USING TFTP ENTER s TO SET IP PARAMETER ENTER c TO CONTINUE BOOTING PxC SMCS systemprompt 74710013 Figure 4 38 Screen displayed on HyperTerminal when booting Press a to start the download Press s to check or modify the current IP parameters gt Phoenix Contact Smart Managed Compact Switch lt Current IP Configuration IP Adresse 192 169 100 23 Subnet Mask 255 255 0 0 Gateway 0 0 0 0 TFTP Server 192 169 100 100 File Name image FW bin ENTER 1 TO START DOWNLOAD ENTER 2 TO CHANGE PARAMETERS PxC SMCS systemprompt 74710022 Figure 4 39 Screen displayed for IP parameters on HyperTerminal 7471_en_06 PHOENIX CONTACT 4 33 FL SWITCH SMCS Press 1 to start the download or 2 to modify the IP parameters sure that the new fir
88. he web pages The web pages are divided into four areas Device type and device logo Device name specified by the user and loading time to avoid mix ups Navigation tree on the left hand side Information tables on the right hand side which contain current device information during runtime 4 2 2 2 Password concept After having entered the valid password no further entry of the password is necessary for a period of 300 s default After this period of time has elapsed or after clicking on Logout the password must be re entered The concept is valid for the first ten users logged in simultaneously All other users must confirm each configuration modification by entering the password until less than ten users are logged in 4 4 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics 4 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 Device configuration device as a network device Switch station Device specific configuration and diagnostics 4 2 3 1 General instructions N FL SWITCH SMCS 8GT 3 General Instructions B Information Sitemap 2 Device Information General Configuration Switch Station 3 Home FL SWITCH SMCS last update 5 55 57 Information Navigate through the W
89. hernet ports in RJ45 format Smart Managed Compact Switch with four Fast Ethernet ports in RJ45 format operating in PROFINET mode by default upon delivery Smart Managed Compact Switch with eight Fast Ethernet ports in RJ45 format operating in PROFINET mode by default upon delivery Smart Managed Compact Switch with sixteen Fast Ethernet ports in RJ45 format Smart Managed Compact Switch with fourteen Fast Ethernet ports in RJ45 format and two fiberglass ports in SC format multi mode Smart Managed Compact Switch with fourteen Fast Ethernet ports in RJ45 format and two fiberglass ports in SC format single mode Replaceable configuration memory Plug in parameterization memory with MRP manager function SFP slot module in SFP format multi mode SFP slot module in SFP format single mode SFP slot module in SFP format single mode long haul Accessories Description Configuration cable for connecting the switch to a PC RS 232 Universal end clamp Fuse terminal block for cartridge fuse insert cross section 0 5 16 mm AWG 24 6 width 12 mm color black Lever type fuse terminal block black for 5 x 20 mm G fuse inserts with LED for 24 V DC Thermomagnetic circuit breaker 1 pos for DIN rail mounting 2A Network monitoring with HMI SCADA systems Patchbox 8 x RJ45 CAT5e pre assembled can be retrofitted Patchbox 6 x RJ45 CAT5e 4 SC RJ fiberglass cable pre assembled can be retrofitted Angled patch connect
90. iegen 74710010 Inbetriebnahme abgeschlossen Figure 3 2 Flowchart Assigning IP parameters 7471_en_06 PHOENIX CONTACT 3 5 FL SWITCH SMCS 3 3 Frame switching The FL SWITCH SMCS operates in store and forward mode When receiving a data packet the switch analyzes the source and destination addresses The switch stores up to 4000 MAC addresses in its address table with an adjustable aging time of 10 to 825 sec onds 3 3 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 fragments lt 64 bytes are rejected Valid data telegrams are forwarded by the switch 3 3 2 Multi address function The switch learns all the source addresses for each port Only packets with Unknown source addresses source address for this port Amulticast broadcast address in the destination address field are forwarded via the relevant port The switch can learn up to 4000 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 3 3 3 Learning addresses The SMCS independently learns the addresses for termination devices which are con nected via a port by evaluating the source addresses in the data telegrams When the SMCS receives a data telegram i
91. ifications of Phoenix Contact products that are used here Registration of such intellectual property rights by third parties is prohibited Other product identifications may be afforded legal protection even where they may not be indicated as such PHOENIX CONTACT Table of contents Table of contents 1 Smart Managed Compact Switch SMCS 1 1 1 1 Properties n EA iE ee Ere Eu 1 1 1 1 1 Dimensions of the SMCS 8 port versions 1 4 1 1 2 Dimensions of the SMCS 16 port versions 1 4 1 2 Status and diagnostic eene 1 5 2 Mounting arid installation e ee met graece Reise 2 1 2 1 Mounting and removing the SMCS sse 2 1 2 2 Installing the Smart Managed Compact Switch 2 2 2 2 1 Connecting the 24 V DC supply voltage 2 2 2 2 2 Alarm contact 2 3 2 2 3 Assignment of the RJ45 Ethernet connectors 2 3 2 2 4 Use of SEB slotS uet decet dee 2 4 2 2 5 V 24 RS 232 interface for external management 2 6 2 3 Gro nditig oe ee ie PP rope eH Os 2 6 3 Startup and functions Pa uc re dx Rr dE D aeu de 3 1 3 1 Basic settings Sit ures ir vie Hin Nie See Po
92. ing ports Port Configuration Table Port Status Modus Link Monitoring enable AutoNeg disable 2 enable AutoNeg he disable 3 enable AutoNeg hd disable 4 enable AutoNeg v disable 5 enable AutoNeg v disable 6 enable AutoNeg v disable T enable AutoNeg m disable 8 enable M AutoNeg v disable Enter password Apply Figure 4 23 Port Configuration Table web page 7471 en 06 PHOENIX CONTACT 4 17 FL SWITCH SMCS Ports Port Configuration menu Offers individual configuration options for each port Port Configuration Port Number Type Port Name Status Link State Negotiation Mode Speed Duplex Mode Port Modus i Link Monitoring Enter password TX 10 100 1000 Port 1 Disable Enable connected auto 1 GBit s full Auto Negotiation Auto Negotiation 10 100 only 10 MBit Half Duplex 10 MBit Full Duplex 100 MBit Half Duplex 100 MBit Full Duplex Disable Enable Port Configuration of port 1 General Port Statistics of port 1 General Figure 4 24 Port Configuration web page 4 18 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics Figure 4 25 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
93. ing state of the designated switch These are the ports with the best way to the root switch Switch ID The switch with the lowest bridge identifier is the root switch The bridge identifier consists of the MAC address and the priority Since the priority is placed before the MAC address the assignment of the appropriate priority clearly identifies the root switch independent of the MAC address The switch with the highest priority lowest value becomes the root switch For every switch port within the network a unique cost calculation is created These root path costs are the sum of all path costs for one packet on the path between the root switch and corresponding switch port The port of a switch with the lowest root path costs is always the active port If the same root path costs have been calculated for two or more ports the switch priority followed by the port priority determine the priority of the path Port ID The port identifier consists of the path costs and the priority Since the priority is placed before the path costs the assignment of the appropriate priority clearly identifies the root port independent of the path costs The port with the highest priority lowest value becomes the root port 5 2 6 3 Processes in the Spanning Tree Protocol STP Selecting the root switch For every topology modification every switch first assumes that it is the root switch and thus sends its own switch ID e g the MAC address in
94. ion Status Enter password Apply Disable Enable RSTP Ring Table Local ring ports Blocking port of ring No Status A B Port on Switch Ring ID Figure 5 8 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 A blocking port does not receive LLDP BPDUS but does send LLDP BPDUs The following states can occur for ring detection Not Ready Ring detection has not yet been completed Ring detection has been completed 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 5 8 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree 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 5 2 2
95. ion name can be saved configuration here by entering a valid password Save current configuration Configuration Name SMCS Configuration Enter password Figure 4 14 Save current configuration web page If the new configuration was 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 SMCS 7471_en_06 PHOENIX CONTACT 4 13 FL SWITCH SMCS 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 reboot automatically Enter password Figure 4 15 Set default upon delivery web page WBM can only be accessed using a valid IP address Once the switch has been reset to its default settings it has no valid IP address and the addressing mechanism is set to BootP Load the last stored This option can be used to reactivate the last configuration stored on the device All modifi configuration cations 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 Figure 4 16 Load the last stored configuration web page Config Manageme
96. ioritat des Switches Root Pfad H chste Prioritat des Ports amp Root Pfad Kleinste Port Nummer 2 Root Pfad 68748056 Pfad zum Root Switch ist festgelegt Figure 5 15 Flowchart for specifying the root path 5 2 6 5 Extended configuration It may be practical to actively specify the topology that forms from the Spanning Tree protocol and not to leave it to the random MAC addresses of the switches involved Non blocking blocking data paths can thus be influenced and a load distribution specified It may also be practical to explicitly deactivate the Spanning Tree Protocol at those ports that do not participate in Spanning Tree so as to benefit from the fast forwarding function The Spanning Tree Protocol also must be deactivated at individual ports if two different network segments both using Spanning Tree are to be coupled via these ports without the two tree structures melting to a large Spanning Tree 5 20 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree Specifying the root switch The root switch is assigned via the assignment of an appropriate priority for the Spanning Tree segment Set the highest priority lowest value in the Priority field on the STP Bridge Configuration page in WBM for the switch selected as the root switch Make sure that all the other network switches have a lower priority higher value Here the set path costs are not evaluated R STP Configuration Rapid
97. is private Please note that it is case sensitive We strongly recommend that you change the password via SNMP or WBM 4 30 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics Basic switch configuration MMS_MCS HyperTerminal Datei Bearbeiten Ansicht Anrufen bertragung 2 8 oB FL SWITCH SMCS 86T MAC Addresse 00 10 45 07 72 60 IP Address 172 16 29 100 1 Subnet Mask 255 255 255 0 1 Default Gateway 0 0 0 0 IP Parameter Assignment lt STATIC gt Redundancy Rapid Spanning Tree Disabled gt Web Interface lt Enable gt SNMP Interface lt Enable gt Reset lt No reset LOGOUT APPLY SAVE Verbunden 00 02 02 38400 8 N 1 Figure 4 36 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 In order to set the IP parameters the Static option must be selected for IP Parameter Assignment This user interface screen can be used to determine the addressing mechanism or to trigger a device restart All settings are applied using APPLY but are not saved permanently Use the SAVE function to save the active configuration settings permanently 7471_en_06 PHOENIX CONTACT 4 31 FL SWITCH SMCS Resetting to the default settings Reset Switch Warning Warning Resetting the switch will cause all connectivity to the switch
98. is used when replacing devices To duplicate d evices using a configuration file observe the following Create a point to point connection between an SMCS and the management station Load the configuration file on the SMCS Reset the SMCS Adjust the IP parameters Save the configuration Save current configuration function The duplicated switch can now be operated in the network using the adjusted IP parameters Config Management Memory Plug menu Memory plug Memory Plug Source of the configuration System configuration has been loaded from system flash during startup Memory Module A pluggable memory module is present Information about the configuration stored in the Memory Module Configuration Name IP Address contained in the 0000 configuration Version of the firmware which has 3 No information available saved the configuration Configuration comparison St No information available Please trigger a atus compare opearation using button below Enter password Clear Memory Plug You can clear the Memory Plug to get an empty module using the button below A switch with an empty Memory Plug loads the configuration out of the non volatile memory of the Switch during the startup phase A new configuration will be stored in the Memory Plug when you save the current configuration or the device is booting Enter password Figure 4 18 Memory Plug web page 7471 en 06 PHOENIX CONTACT 4 15
99. ithin the relevant VLAN members of a VLAN can be distributed 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 8 2 Enabling the VLAN web pages in web based management Activate web based management for the switches Switch to the General Configuration menu then to 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 8 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 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
100. lable for bus configuration Manual The components are transferred to the bus configuration from the device catalog using drag amp drop Automatic The devices are entered via the Read PROFINET function which means that they can be accessed in the network via DCP Discovery and Configuration Protocol For this the devices must be supplied with power and the operating mode must be set to PROFINET 9 2 2 Configuring the switch as a PROFINET IO device Once all switches have been added to the bus configuration the following settings must be made for the individual switches via the Detail View tab device details 7471 en 06 PHOENIX CONTACT 9 3 FL SWITCH SMCS The PROFINET device name must be checked and modified if necessary The IP address and the subnet mask must be checked and modified if necessary The update time for inputs should be set to 512 ms default The update time for outputs should be set to 512 ms default monitoring time should be set to 2000 ms default Theinterface modules must be selected from the module catalog and added to the station Fl switchs koffer de 192 168 0 7 PROFINET Einstellungen Bezeihung we DG Hesse Pheerixconac Dy Produktbezekhnung FLswircHsmes Funktonsbeschreitunn Factory ne Such fir PROFINET 10 D Grey PROFMETIO
101. le the manager can be re enabled manually or a reboot executed manager function module is removed during runtime the MRP manager can no longer be selected manager function module is removed while the MRP manager is active the mode remains active until the device is restarted or is switched to another mode MRP client disabled 7471 en 06 PHOENIX CONTACT 6 1 FL SWITCH SMCS 6 2 1 Network examples FE MRP Manager Game 22 gt men EI peeke ee Boga mn sedea LT 6855 Baba LT T il gum m B EI B es ame i Ei t f ii a Jii va ee ae ENTE ae ae LT Figure 6 1
102. m 80 km fiber optic 9 125 0 3 dB km 0dBm 5 dBm 24 dBm 0 dBm 100 Mbps full duplex 1310 10 km fiberglass with F G 50 125 um 0 7 dB km F1200 4 4 km fiberglass with F G 50 125 1 6 dB km F800 17 km fiberglass with F G 62 5 125 um 0 7 dB km F1000 4 6 km fiberglass with F G 62 5 125 um 2 6 dB km F600 19 dBm 62 5 125 um 24 dBm 50 125 um 14 dBm 34 dBm 100 Mbps full duplex 1310 nm 44 km fiberglass with F G 9 125 um 0 36 dB km 40 km fiberglass with F G 9 125 um 0 4 dB km 32 km fiberglass F G 9 125 um 0 5 dB km 15 dBm 9 125 um 7 dBm 34 dBm Operation 30g 11 ms Half sine shock pulse Storage transport 50g Half sine shock pulse Operation storage transport 5g 10 150 Hz 1m 7471 en 06 PHOENIX CONTACT 12 3 FL SWITCH SMCS Conformance with EMC directives Developed according to IEC 61000 6 2 Noise emission according to EN55022 1998 A1 2000 2 2003 interference voltage Noise emission according to EN55011 1998 A1 1999 A2 2002 electromagnetic interference Noise immunity according to EN 61000 4 2 IEC1000 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 EN61000 4 4 IEC1000 4 4 burst Data lines Voltage supply Noise immunity according to EN 61000 4 5 IEC 1000 4 5 surge Data lines Voltage supply Noise immunity accor
103. meters comparing the desired actual con figuration and archiving alarms sent by the switch In the event that a device is replaced the control system detects the replacement device and starts it up automatically For the controller program the switch as a PROFINET IO device will make available the link states as a process data item 9 1 Preparing the switch for PROFINET mode By default upon delivery the switch operates in Default mode and must be set to PROFINET mode once Three mechanisms are available for switching the mode Following startup and assignment of an IP address the operating mode can be changed on the corresponding page in WBM see Section Operating Mode menu on page 4 12 Through configuration via the serial interface see Section Management via local V 24 RS 232 communication interface on page 4 29 Byusing Smart mode see Section Using Smart mode on page 3 3 When activating Profinet mode the following default settings are made for operation TheLink Layer Discovery Protocol LLDP is activated with the following configuration specifications for PROFINET components Message transmit interval 5 s Message transmit hold multiplier 2 TLV port ID with subtype locally assigned in the following format port xyz TLV chassis ID with subtype locally assigned transmits the station name Discovery and Configuration Protocol DCP is activated as the mechanism for assigning IP pa
104. mitted 7471 en 06 PHOENIX CONTACT 5 21 FL SWITCH SMCS B 5 2 6 7 Modifying the protocol timers 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 Spanning Tree components in a single network You can also try to reduce the reconfigu ration 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 dis tributed 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 STP 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 STP and RSTP Maximum number of active Spanning Tree components along the path beginning at the root switch please refer to the following two example illustrations MaxAge 2 Hello Time 1 2x Forward Delay 1 s gt MaxAge MaxAge 22 x Hello Time 1 s The value MaxAge 2 Hello Time for a ring topology corresponds to the maximum num ber of components with active Spanning Tree Essa Au Inaktiver Link
105. mware is located in the Download directory of the TFTP server If the device firmware is faulty the following message appears gt Phoenix Contact Smart Managed Compact Switch lt Phoenix Contact GmbH amp Co KG www phoenixcontact com Press any key to stop booting booting continues SOFTWARE IMAGE CORRUPTED YOU HAVE TO UPDATE THE SOFTWARE USING TFTP Enter a to download switch software using tftp Enter to continue booting PxC SMCS systemprompt 94710018 Figure 4 40 Selection menu for faulty firmware A firmware update via the serial interface may take several minutes and must not be interrupted 4 34 PHOENIX CONTACT 7471_en_06 Rapid Spanning Tree 5 Rapid Spanning Tree Loops IEEE 802 1w 5 1 General function 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 communication is interrupted The meshed structure is therefore replaced by a logical deterministic path with a tree structure without loops using the Spanning Tree algorithm In the event of
106. n see CoS The broadcast limiter can also be referred to as a QoS function 3 3 4 3 Flow control Flow control can provide advantages during transmission in large network topologies in which peak loads are to be expected The switch supports flow control 7471 en 06 PHOENIX CONTACT 3 7 FL SWITCH SMCS 3 8 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics 4 Configuration and diagnostics The Smart Managed Compact Switch SMCS offers several user interfaces for accessing configuration and diagnostic data The preferred interfaces are the web interface and SNMP interface These two interfaces can be used to make all necessary settings and request all information Access via the V 24 RS 232 interface only enables access to basic information and supports basic configuration However the V 24 RS 232 interface also enables firmware update via TFTP 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 Manage ment web page Additional saving options are also available via SNMP or V 24 RS 232 4 1 Making contact between the SMCS and PC for initial configuration 4 1 1 Operation with static IP addresses To enable the SMCS to be accessed using the desired IP address make sure that the computer and the SMCS are in the same IP subnetwork To do this for initial c
107. n nme 4 29 4 4 2 User interface functions 4 30 4 4 3 Starting with faulty software firmware sse 4 33 5 Rapid Spanning Tree ken 5 1 5 1 General function ine alu dan 5 1 5 2 ESTP Startup A 5 2 5 2 1 Enabling R STP on all switches involved 5 2 5 2 2 Connection failure Example seen 5 9 5 2 3 Mixed operation of RSTP STP 5 10 5 2 4 Topology detection of a Rapid Spanning Tree network RSTP 5 10 5 2 5 Configuration notes for Rapid Spanning Tree 5 13 5 2 6 Example topologies 5 16 6 Media Redundancy Protocol MRP u an a 6 1 6 1 C a Pe cl te etr 6 1 6 2 MRP manager eter DR a Eee er ea 6 1 6 2 1 amp tenen 6 2 6 3 Enabling web pages for using MRP in WBM emm 6 4 6 4 Configuration of MRP eee tee Unde 6 4 1 MRP general 6 4 2 MRP configuratioh 4 4 4 05 ete n ae A ee Tace dus 6 5 Seas cates ete a pos dio ite 7 1 7 1 BaSiCs 7 1 7 2 Enabling the web pages for multicast filtering in WBM
108. n 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 Query 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 aspecific time aging time If several routers with active IGMP query function are connected tothe network 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
109. nly multiples of 4096 are permitted The desired value can be entered in the Priority field The value will be rounded automatically to the next multiple of 4096 Once you have con firmed the modification by entering your password the initialization mechanism is started Redundant connections can now be created 5 2 PHOENIX CONTACT 7471_en_06 Rapid Spanning Tree R STP Configuration Rapid Spanning Tree Status Disable Enable Priority 32768 0 up to 61440 in steps of 4096 This bridge uses the following parameter if this bridge is the root bridge Maximum Age of STP o Information 20 5 up 1o 403 Hello Time 2 s 1s up to 10s Forward Delay fis s 4s up to 30s Enter password Apply Figure 5 3 R STP Configuration web page Large tree support If RSTP is operated using the default values it is suitable for up to seven switches along the relevant path see Figure 5 17 on page 5 22 and Figure 5 18 on page 5 23 as an example forthe 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 device
110. nt File Transfer menu Configuration file transfer This option can be used to save your device configuration on a PC or to operate the switch using a stored configuration File Transfer TFTP Server IP Address TFTP 192 1 68 12 100 File Name Config SMCS device to host host to device Transfer Direction TFTP Transfer Status Config file transfer not started New Parameters will be stored automatically Note After downloading the running configuration is inconsistent Load the new parameter by rebooting the device Enter password Apply Figure 4 17 File Transfer web page When a configuration is uploaded from the SMCS to a PC the last saved version is trans mitted Should you wish to transmit the active configuration then it is recommended that you save it again beforehand Save current configuration function only activated once the switch has been reset The use of a configuration file does not affect an existing old password 1 When a configuration is downloaded from the PC to a SMCS the new configuration is 4 14 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics il Following a hostto device file transfer some configuration modifications will take effect immediately others will only take effect after a reset The SMCS must be reset in order to ensure consistency Device replacement il Configuration through a configuration file
111. ntered in the group see also Multicast source detection on page 7 10 If the switch itself is the querier these multicasts are blocked 7 4 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 Enable IGMP Snoop Aging 00 s 30s up to 3600s Disable IGMP Query C Version 1 Version 2 IGMP Query Interval 120 s 10s up to 3500s 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 Disable Enable Static Query Ports Ports 1 8 LE Enter password Apply Clear auto detected Query Ports Enter password Clear Figure 7 4 General Multicast Configuration web page A IGMP snooping In IGMP 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 receive
112. ode for details see Using Smart mode on page 3 3 Mini DIN V 24 RS 232 V 24 RS 232 interface in Mini DIN format for on site configuration via the serial inter face Alarm contact The floating alarm contact can be connected here via a 2 pos COMBICON connector Supply voltage connection The supply voltage can be connected via the 4 pos COMBICON connector redun dancy is optional Labeling fields The SMCS has large labeling fields which can be used for both device labeling and port labeling 7471 en 06 PHOENIX CONTACT 1 3 FL SWITCH SMCS Dimensions of the SMCS 8 port versions ann a Mia dali PHOENIX CONTACT FL SWITCH SMSC 8GT Ord No 2891123 ETN ACT SPD FD US1 032 FAIL 100 mm 3 94 in 9990 po 10 mm 0 39 in lt FL MEM PLUG 2891259 Figure 1 3 Housing dimensions of the SMCS 8 port version in millimeters inches 1 1 2 Dimensions of the SMCS 16 port versions 214 8 43 in 71 2 795 in PHCENIX FL CONTACT 1 3 5 7 9 11 13 15 CY XX Dann eani Seele 2 4 6 8 10 12 14 16 tes ERR RR 95 mm 3 74 in 000 12345678 BH 9 1019 1213 1415 16 usi an dos ano 77 EBENEN 70582004 s 10
113. ontact your computer must be configured so that contact is possible The following screenshots were created under Windows XP Professional 7471 en 06 PHOENIX CONTACT 4 1 FL SWITCH SMCS 4 Eigenschaften von LAN Verbindung Allgemein Authentifizierung Erweitert Verbindung herstellen ber E9 Intel R PRO 1000 CT Network Conn Diese Verbindung verwendet folgende Elemente fel Client f r Microsoft Netzwerke Datei und Druckerfreigabe fur Microsoft Netzwerke Internetprotokoll TCP IP Installieren Deinstallieren Eigenschaften Beschreibung TCP IP das Standardprotokoll f r WAN Netzwerke das den Datenaustausch ber verschiedene miteinander verbundene Netzwerke erm glicht C Symbol bei Verbindung im Infobereich anzeigen Benachrichtigen wenn diese Verbindung eingeschr nkte oder keine Konnektivit t besitzt Figure 4 1 Properties dialog box for the network card To set the IP parameters open the Properties tab for your network adapter Activate Internet Protocol TCP IP and then click the Properties button 4 2 7471_ _06 Configuration and diagnostics Online diagnostics In the dialog box that opens click the Use the following IP address radio button Eigenschaften von Internetprotokoll TCP IP PR Allgemein IP Einstellungen k nnen automatisch zugewiesen werden
114. or RSTP and RSTP with activated ring detection When using RSTP expect switch over times in the range from 100 ms to 2 s When using fast ring detection expect switch over times in the range from 100 ms to 500 ms The various roles of ports 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 This means that this port is not part of the active topology 7471 en 06 PHOENIX CONTACT 5 23 FL SWITCH SMCS 5 24 PHOENIX CONTACT 7471_en_06 Media Redundancy Protocol MRP 6 Media Redundancy Protocol MRP Loops 6 6 1 General function A ring can be created in the network using MRP according to IEC 62439 and a redundant connection provided Each ring must contain an MRP manager all other devices in the ring must support the MRP client function The ring is created using dedicated ports The MRP ports must be configured in the switch management When configured correctly e g maximum of 50 switches in the ring and one switch defined as MRP manager offers a guaranteed maximum switch over time of 200 ms For the switch the n
115. or every HOP the hop of a data packet from one pointto the next are preset to a value of 19 default setting recommended for 100 Mbps and can be modified at any time by the user Selecting a designated port At every designated switch the port with the most cost effective data link in the direction of the root switch is called the designated port Port costs The port costs can be set according to two different standards 802 1D STP or 801 1W RSTP If in addition to Phoenix Contact devices devices from other manufacturers are used it is recommended that the port costs are set according to a uniform standard The dot1dstpPathCostDefault SNMP object OID 1 3 6 1 2 1 17 2 18 can be used to change the standard that is used Table 5 2 Port costs according to 802 D Transmission speed Recommended value Recommended range 10 Mbps 100 50 600 100 Mbps 19 10 60 Table 5 3 Port costs according to 802 W Transmission speed Recommended value Recommended range 10 Mbps 2 000 000 200 000 20 000 000 100 Mbps 200 000 20 000 2000 000 1000 Mbps 20 000 2 000 200 000 PHOENIX CONTACT 5 19 FL SWITCH SMCS 5 2 6 4 Flowchart for specifying the root path Pfad zum Root Switch ermitteln Gleiche n Pfadkosten Gleiche Prioritat der Switches Gleiche Prioritat der einzelnen Ports H chste Pr
116. or with two RJ45 CAT5e network connections including Layer 1 security elements Angled patch connector with eight RJ45 CAT5e network connections including Layer 1 security elements 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 cable CAT6 pre assembled 0 5 m long Order designation FL SWITCH SMCS 8GT FL SWITCH SMCS 6GT 2SFP FL SWITCH SMCS 6TX 2SFP FL SWITCH SMCS 8TX FL SWITCH SMCS 4TX PN FL SWITCH SMCS 8TX PN FL SWITCH SMCS 16TX FL SWITCH SMCS 14TX 2FX FL SWITCH SMCS 14TX 2FX SM FL MEM PLUG FL MEM PLUG MRM FL SFP SX FL SFP LX FL SFP LX LH Order designation PRG CAB MINI DIN E NS 35 N UK 10 DREHSILED 24 5X20 UT 4 HESILED 24 5X20 UT 6 TMC M 2A FL SMNP OPC SERVER FL PBX 8TX FL PBX 6TX 4FX FL PF SEC 2TX FL PF SEC 8TX FL PF 2TX CAT5E FL PF 8TX CAT5E FL PF 2TX CAT6 FL PF 8TX CAT 6 FL CAT6 PATCH 0 3 FL CAT6 PATCH 0 5 Order No Pcs Pkt 2891123 1 2891479 1 2989323 1 2989226 1 2989093 1 2989103 1 2700996 1 2700997 1 2701466 1 2891259 1 2891275 1 2891754 1 2891767 1 2989912 1 Order No Pcs Pkt 2730611 1 080088 6 1 3005138 50 3046090 50 0916605 6 2832166 1 2832496 1 2832506 1 2832687 1 2832690 1 2891165 1 2891178 1 28
117. ore membership reports are received the associ ated 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 If the 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 The multicast groups created as described above are deleted in accordance with the timeout rules For example if no more membership reports are received the associ ated 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 7 10 PHOENIX CONTACT 7471 en 06 Virtual Local Area Network VLAN 8 Virtual Local Area Network VLAN VLAN ee ee ee 8 1 Basics A VLAN is a closed network that 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 w
118. patibility Protocol Compatibility Port Mode Port is in the Rapid Spanning Tree mode Enter password ForceRstp Port Configuration of port 4 General Security F STP VLAN Figure 5 7 Protocol compatibility port receives STP BPDUs it switches automatically to STP mode Automatic switching to R STP mode does not take place Switching to R STP mode can only be forced via ForceRSTP or via a restart 7471 en 06 PHOENIX CONTACT 5 7 FL SWITCH SMCS Structure of the ring ID Information in WBM Ring detection states RSTP fast ring detection The RSTP Fast Ring Detection function can be activated on the RSTP Configuration web page see page 5 3 The Fast Ring Detection function should not be activated on gigabit RJ45 ports 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 Possible to check whether the desired topology corresponds to the actual topology RSTP Fast Ring Detection RSTP Fast Ring Detect
119. ps on switches without Gigabit support 100 Up to 2 Gigabit SFP slot module or SC format Fiberglass LC format SC format 1000 Mbps or 100 Mbps depends on device Depends on the SFP module or fiber type used Depends on the SFP module used 1 1 25 Gbps full duplex 850 nm 550 m fiber optic 50 125 um 250 m fiber optic 62 5 125 um 9 dBm 4 dBm 17 dBm 1 25 Gbps full duplex 1310 nm 30 km fiber optic 9 125 0 4 dB km 550 m fiber optic 50 125 um 250 m fiber optic 62 5 125 um 5 dBm 0 dBm 12 2 PHOENIX CONTACT 7471 en 06 Technical data and ordering data Ethernet interfaces continued Minimum Properties of 1000 Mbps single mode ports FL SFP LH Data transmission speed Wavelength Maximum transmission length with single mode fiber Transmission power Minimum Maximum Receiver sensitivity Minimum Maximum optical input power Properties of 100 Mbps multi mode ports in SC format Data transmission speed Wavelength Maximum length of transmission Transmission power Minimum Maximum Receiver sensitivity Minimum Properties of 100 Mbps single mode ports in SC format Data transmission speed Wavelength Maximum length of transmission Transmission power Minimum Maximum Receiver sensitivity Minimum 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 23 dBm 1 25 Gbps full duplex 1550 n
120. rameters The station name system name is deleted if the value for the System Name object contains the device type default upon delivery MRP protocol is not activated function is supported by firmware version 2 20 or later In addition when switching to PROFINET mode the configuration is saved automatically and the device is restarted The switch then starts in PROFINET mode for the first time and waits for a name and a PROFINET IP address to be assigned At this point the switch is already visible in the network via LLDP with the default name FL SWITCH SMCS and the IP address 0 0 0 0 The switch indicates that it is waiting for a valid IP configuration via DCP when the LED for the mode that is currently active flashes The switch cannot be accessed via other network services such as ping at this time 7471 en 06 PHOENIX CONTACT 9 1 FL SWITCH SMCS Operating Mode Default eee Profinet Mode Profinet Activating the mode Profinet the following settings wil b done select ip address assignment DCP enable LLDP clear the default System Name like FL SWITCH SMCS save the configuration execute a reboot Changing from the mode Profinet to an other mode the following settings will be done independently of the setting before selecting the mode profinet select ip address assignment BootP replace an empty System Name by the default System Name lik
121. reated on this switch These include multicast groups that are assigned as a result of IGMP snooping and groups that are statically created Current Multicast Groups VID Group Address Group Membership 1 01 00 5 00 18 08 Ports 1 8 1 01 00 5 00 19 21 Ports 1 8 wrrrrieiIie 3 01 00 5e 00 18 2d Ports 1 8 7 01 00 5 00 28 28 Ports 1 8 5 5 15 1 130 10 10 Note This web page wil be refreshed in 15 sec automatically change the interval at the web page Services Figure 7 1 Current Multicast Groups web page These checkboxes indicate which port has been assigned to each individual group Please note that all multicast groups that are known to the switch including the dynami cally detected groups that were not created manually are shown on this web page The overview for group membership is based on the doti qTpGroupTable SNMP group This table contains all groups static entries and IGMP and their members 7 3 2 Creating static multicast groups This web page is used to create and manage statically configured multicast groups In order to create a multicast group enter the MAC address provided see Multicast addresses on page 7 4 for the multicast group in the Multicast Group Address field add the ports of the data paths to the group members and confirm these entries by entering a valid password If a group address is entered as an IP address the IP address is con
122. red operating mode 3 2 1 3 Exiting Smart mode e To exit press and hold down the mode button for at least five seconds The previously selected operating mode is saved 3 2 1 4 Possible operating modes in Smart mode The SMCS supports selection of the following operating modes in Smart mode see also example below Table 3 1 Operating modes in Smart mode Mode ACT SPD FD LED 1 LED 2 LED 3 Exit Smart mode without changes OFF OFF ON Reset to the default settings OFF ON OFF Set PROFINET mode OFF ON ON Set Ethernet IP mode ON OFF OFF 7471 en 06 PHOENIX CONTACT 3 3 FL SWITCH SMCS Example When the switch is in Smart mode exiting Smart mode triggers the following action Example A Resetting to the default settings Example B Setting PROFINET mode 74710024 Figure 3 1 Example of Smart mode 3 4 PHOENIX CONTACT 7471_en_06 Startup and functions 3 2 1 5 Assigning IP parameters Inbetriebnahme Vergabe statischer IP Parameter ber V 24 IP Parameter i Drei Requests von BootP Server bleiben erhalten unbeantwortet Vergabe der IP Parameter ber BootP Start ohne IP Konfiguration IP Adresse 0 0 0 0 Subnetz Maske 0 0 0 0 Default Gateway 0 0 0 0 Eintragen der IP Parameter als lokale Konfiguration Mit lokalen Konfigurationsdaten starten sofern g ltige Daten vorl
123. replacement efficient network configuration The following information is received by neighbors or transmitted to neighbors as long as LLDP is activated device transmits its own management and connection information to neighboring devices device receives management and connection information from neighboring devices Displaying LLDP The information that is collected is presented in a table in WBM The table includes the port information numbers that are used to connect both devices together as well as the IP address the device name of neighboring devices and the device type Please note that a blocking port using RSTP does not receive LLDP BPDUS but does send them LLDP general The Link Layer Discovery Protocol LLDP according to 802 1ab is used by network devices to learn and maintain the individual neighbor relationships Function A network infrastructure component transmits a port specific BPDU Bridge Protocol Data Unit which contains the individual device information at the Message Transmit Interval to each port in order to distribute topology information The partner connected to the rele vant port learns the corresponding port specific neighbors from these BPDUs The information learned from the BPDUs is saved for a defined period of time as the TTL value Time To Live Subsequent receipt of the same BPDUs increases the TTL value again and the information is still saved
124. s Subnet Mask and Gateway Address in dotted decimal notation e g 172 16 16 230 The setting BootP becomes effective after saving the configuration and rebooting the device Logout Figure 4 5 IP Configuration web page 7471_en_06 PHOENIX CONTACT 4 7 FL SWITCH SMCS IP address assignment While the switch waits for an IP address to be assigned maximum of three BootP requests the mode LED which has been selected via the mode button will also flash Static assignment The switch can be accessed using the set IP address and does not send any kind of requests for the receipt of IP parameters Modifications to the IP parameters only take effect once the configuration is saved anda restart is then performed Bootstrap Protocol BootP The switch sends a maximum of three BootP requests after every restart and receives a BootP reply with IP parameters If the BootP reply is disabled the switch starts after the third request without IP configuration System Identification menu This menu is used to display or modify user specific device data e g location device name or function This device data is also available in SNMP System Identification Name of device FL SWITCH SMCS Description Smart Managed Compact Switch Physical location Fab 3 42 1 Contact Admin 03 Figure 4 6 System Identification menu 4 8 PHOENIX CONTACT 7471 en 06 Confi
125. s data Summary of the link states of all ports three bytes each port corresponds to one bit 0 Link down 1 Link up Byte Pipes 51522322 abs 2 re 233 Bit 7 6 5 4 3 2 1 0 Port 8 16 24 7 15 23 6 14 22 5 13 21 4 12 20 3 11 19 2 10 18 1 9 17 slots transmit link information for each port This includes Link status 0 Link down 1 Link up Far End Fault status 0 No fault 1 Fault Port enable status 0 Enabled 1 Disabled Link mode 0 Forwarding 1 Blocking Bit 7 6 9 e 1 0 Meaning Link mode Port Far end fault Link status enable 9 5 PDEV function description The PDEV function provides an extended scope of functions for switches in PROFINET mode This includes displaying neighbor and topology information in the engineering tool This information is determined using the Link Layer Discovery Protocol LLDP and can be used for example to compare the desired and actual network In addition the PDEV function is used to display the transmitted information via the Ethernet ports The PDEV function uses two new submodules Interface submodule with port number 0x8X00 X from to F Port submodule with port number Ox8IXX I Interface ID X Port number These submodules are represented in the Step7 engineering tool PROFINET communica tion enables information about the por
126. s saved externally When using this configuration for a device with out Gigabit support the relevant ports are operated using the default values since it will not be possible to activate the values specified in the configuration When loading a configuration from an 8 port device to a 16 port device the configuration will only be accepted for the ports 1 to 8 The ports 9 to 16 are in default state 3 1 1 Delivery state 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 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 BootP is activated as the addressing mechanism available ports are activated with the following parameters Auto negotiation Autocrossing All counters of the SNMP agent are deleted web server SNMP agent and V 24 RS 232 interface are active Port mirroring Rapid Spanning Tree broadcast limiter and MRP are deactivated alarm contact only opens in the event of a non redundant power supply The transmission of SNMP traps is deactivated and the switch has no valid trap destination IP address aging time is set to 40 seconds The WBM refresh interval is set to 30 seconds The switch is in Default mode 7471 en 06 PH
127. s soon as a communi cation relationship has been successfully established between the switch and the control System the switch starts its management interfaces The switch indicates that the PROFINET connection has been established correctly by an entry in the event table 9 3 PROFINET alarms The SMCS can send the following alarms Redundant power supply missing management agent alarm MRP manager registered a ring interrupt management agent alarm Interface module removed slot specific alarm Link monitoring slot alarm for the relevant channel port All the alarms are deactivated when the device is started 7471 en 06 PHOENIX CONTACT 9 5 FL SWITCH SMCS 9 3 1 Alarms in WBM In PROFINET mode the Profinet Alarms web page appears in the navigation bar under Switch Station Diagnostics Here all alarms supported by the IO device can be activated The PROFINET alarms are sent to the control system by the IO devices From there they can be read from the diagnostics archive using DIAG Version 2 0 is included in Service Pack 1 for PC Worx 5 00 26 Profinet Alarms Power Supply Disable Enable MRP Ring Failure Disable Enable Link Monitoring Ports 1 8 This settings will not be saved Please use an engineering tool to configure alarms in your application Enter password Apply Figure 9 4 PROFINET alarms WBM The settings in Profinet Alarms can be saved
128. s 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 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 Maximum age of STP information The parameter is set by the root switch and used by all switches in the ring The parameter is sent to make sure that each switch in the network has a constant value against which the age of the saved configuration is tested 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 R STP General Hello time Specifies the time interval within which the root bridge regularly reports to the other jumpers via BPDU 7471 en 06 PHOENIX CONTACT 5 3 FL SWITCH SMCS Forward delay The forward delay value indicates how long the switch is to wait in order for the port state in STP mode to change from Discarding to Listening and from Listening to Learning 2 x forward delay The Max Age of STP Hello Time and Forward Delay parameters are optimized by default upon delivery They sho
129. several infrastruc ture components hubs or switches without Spanning Tree support 7471 en 06 PHOENIX CONTACT 5 13 FL SWITCH SMCS For the last two data path options no specific precautionary measures are necessary If necessary you can use the Fast Forwarding option for the respective ports see Section Fast forwarding on page 5 11 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 Span ning 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 Rule 2 At least 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 m Switch 1 Switch 3 Root Bridge Priorit t Default Priorit t 0 Switch 12 GE Prioritat Default Switch 11 Prioritat 40000 NN esp Switch 6 ae Switch 2 Prioritat Default i Backup Root Bridge ELI O
130. ss to that device via a browser A wide range of information about the device itself 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 changing the existing password to a new one known only to you 4 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 accessed using a valid IP address By default the switch has no valid IP address Settings are not automatically saved permanently If the active configuration has not been saved a flashing floppy disk icon appears in the top right corner in WBM The icon is linked to the Configuration Management web page The active configuration can be saved permanently by selecting Save current configuration on this web page Should the connection be interrupted during the transmission of web pages then waiting time of several minutes must be observed before the web interface can be accessed again 4 2 2 1 Structure of t
131. t only forwards this data telegram to the port that connects to the specified device if the address could be learned beforehand The SMCS can learn up to 4000 addresses and store them in its table The switch monitors the age of the learned addresses The switch automatically deletes from its address table address entries that have exceeded a specific age default 40 seconds adjustable from 10 to 825 seconds aging time All learned entries are deleted on a restart A link down deletes all the entries of the affected port A list of detected MAC addresses can be found in the MAC address table see Section Diagnostics Mac Address Table menu on page 4 23 The MAC address table can be deleted via Clear The aging time is set using the dott dTpAgingTime MIB object OID 1 3 6 1 2 1 17 4 2 The available setting range is 10 825 seconds For static configuration an aging time of 300 seconds is recommended 3 6 PHOENIX CONTACT 7471 en 06 Startup and functions 3 3 4 Prioritization The switch supports four 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 the value 0 or 1 in the priority field are transmitted with the lowest priority default Data pack
132. t speed duplex mode and the link status to be read An engineering tool reads and then displays the neighbor and topology information via SNMP 7471 en 06 PHOENIX CONTACT 9 7 FL SWITCH SMCS 9 5 1 PROFINET stack and PDEV function The PDEV function is supported by PROFINET stack version 2 2 The following functions are supported by PN stack 2 2 Link status port mode and port MAC address can be requested via the port Storing of PDEV data Reorganization of submodules for integrating interfaces and new ports Use of the PN stack LLDP in PN mode used for neighbor and topology detection Support for device replacement and application redundancy 9 5 1 1 PDEV in the firmware The PDEV function can be used for the FL SWITCH SMCS device range in firmware version 2 2 or later In addition the corresponding version of the GSDML file must be used the FDCML file does not support PDEV at present These files are used to describe the device function and can be imported into an engi neering tool The PDEV function is only available in firmware version 2 2 or later 9 8 PHOENIX CONTACT 7471 en 06 LLDP Link Layer Discovery Protocol 10 LLDP Link Layer Discovery Protocol 10 1 Basics LLDP The switch supports LLDP according to IEEE 802 1ab and enables topology detection of devices that also have LLDP activated Advantages of using LLDP Improved error location detection Improved device
133. t to STP mode All other ports that receive RSTP BPDUs remain in RSTP mode 5 2 4 Topology detection of a Rapid Spanning Tree network RSTP Rapid Spanning Tree switches continually exchange information about the network topol ogy using special messages BPDUs Bridge Protocol Data Units In this way the switches learn the current network topology and based on this information make the following decisions Which switch is selected as root switch Which data paths are disabled If a switch is started using the Rapid Spanning Tree Protocol it first expects to be the root Switch However no data communication is possible during the startup phase until the current network topology has been learned and until the decisions described above have been made Therefore loops in the network startup phase which could occur because no data path is interrupted are prevented 5 2 4 1 Topology modification A topology modification can be triggered by the following A Adding a data path Failure of a data path Adding a Spanning Tree switch Failure of a Spanning Tree switch A topology modification is automatically detected and the network is reconfigured so that another tree is created and all the devices in this tree can be accessed During this process loops do not even occur temporarily If the sending of traps was not deactivated two traps are generated newRoot OID 1 3 6 1 2 1 17 0 1 topologyChange OID 1
134. tact E Shop Ensure that the MIB is located in a firmware s respective software packet zip file 4 28 PHOENIX CONTACT 7471 en 06 Configuration and diagnostics 4 4 Management via local V 24 RS 232 communication interface 4 4 1 General function A local communication connection can be established to an external management station via the V 24 RS 232 interface in Mini DIN format Use the PRG CAB MINI DIN program ming cable Order No 2730611 The communication connection is established using a corresponding emulation between the switch and a PC e g HyperTerminal under Win dows and enables access to the user interface The reference potentials of the V 24 RS 232 interface and the supply voltage are not electrically isolated 4 4 1 1 Interface configuration Make the following settings on your Windows PC Eigenschaften von COMI 2 xj Anschlusseinstellungen Bits pro Sekunde Datenbits fe H Paritat kie Stoppbits Elusssteuerung Standard wiederherstellen Abbrechen Ubemehmen Figure 4 34 HyperTerminal configuration 4 4 1 2 Calling the user interface Connect the PC and the switch using a suitable cable PRG CAB MINI DIN Order No 2730611 Once you have established the connection select the key combination on the PC The switch then requests the screen contents 7471_en_06 PHOENIX CONTACT 4 29 FL SWITCH SMCS
135. tation Traps Traps are spontaneous SNMP alarm or information messages that 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 targets receivers must be set by the user on the relevant device 4 26 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics OID Description OID Description OID Description OID Description OID Description OID Description trapPasswd 1 3 6 1 4 1 4346 11 11 3 0 1 Sent to the defined trap receivers on each modification or attempted modification the device password and contains information about the status of the last modification or attempted modification trapFWHealth 1 3 6 1 4 1 4346 11 11 3 0 2 Sent on each firmware related modification and contains additional information about the firmware status trapFWConf 1 3 6 1 4 1 4346 11 11 3 0 3 Sent each time the configuration is saved and informs the management station that the configuration has been saved successfully This trap is sent in the event of configuration modifications port name port mode device name IP address trap receiver address port mirroring etc which are not yet saved permanently The trap also provides a warning that if not saved permanently the changes will be lost on a r
136. that are to be operated as active R STP components in the network 2 Connect the switches to form a meshed topology Only create the meshed topology after activating R STP 5 2 1 Enabling R STP on all switches involved R STP can be activated via web based management via the SNMP interface or via the serial interface While learning the network topology the switch temporarily does not participate in network communication Now switch to the R STP General page in the Switch Station menu Here you will find various information about the Spanning Tree configuration R STP General Rapid Spanning Tree Status Rapid Spanning Tree is not activated System Up Time 11 min 31 sec Last Topology Change sec ago Topology Changes 0 Designated Root 0000 00 00 00 00 00 00 Root Port Root Cost Maximum Age of STP Information ap Hello Time Os Forward Delay Os Note This web page will be refreshed in 23 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 5 2 R STP General web page The web page displays the parameters with which the switch is currently operating R STP configuration It is sufficient to set the Rapid Spanning Tree Status to Enable in order to start R STP using default settings Priority values can be specified for the switch The bridge and backup root can be specified via these priority values O
137. to the network All switches receive these messages MAC multicast and store the contents of the best message The best mes sage contains the following topology information The root ID information and the cost infor mation After having received the root ID information the switch compares the following new root ID is saved if it has a higher priority than the IDs that are already saved including its own ID The path costs are checked if the root ID is the same as the one already saved If they are lower the ID is saved 5 18 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree Ifthe root ID and the costs are the same the ID of the sender is checked If the ID is lower than the switch s own ID it is saved Ifthe root ID costs and sender ID are the same the priority of the sender port is the decisive criterion Selecting a designated switch For every network the switch with the most favorable root connection is selected This Switch is called the designated switch The root switch is the designated switch for all directly connected networks Selecting a root port Once the root switch has been specified by processing the root IDs the switches now specify the root ports The most favorable path is specified by minimizing all connection costs on the path to the root switch In addition transmission speeds can also serve as costs For the switch the path costs added by each port f
138. uld not be modified R STP port table R STP Port Table Port Oper Edge Port Protocol R STP State 1 edge port RSTP Discarding 2 edge port RSTP Discarding 3 no edge port RSTP Forwarding 4 edge port RSTP Discarding 5 no edge port RSTP Blocking 6 edge port RSTP Discarding 1 RSTP Blocking 8 edge RSTP Discarding Note This web page will be refreshed in 21 sec automatically change the interval at the web page Device Configuration User Interfaces Figure 5 4 R STP Port Table web page Oper edge port All ports that do not receive any R STP BPDUS e g termination device ports become edge ports i e ports that go to the Forwarding state immediately after restart Protocol Indicates the redundancy protocol used R STP state Indicates the current R STP 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 Blocking Discarding The port has a link but has not been set to the Discarding state by RSTP 5 4 PHOENIX CONTACT 7471 en 06 Rapid Spanning Tree 6 R STP port configuration table R STP Port Configuration Port Number Port 1 STP Port State Forwarding STP Ena
139. ulticast 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 7471_en_06 PHOENIX CONTACT 7 9 FL SWITCH SMCS 7 5 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 7 5 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 If the switch receives an IGMP query packet it will save the port via which it received the packet for the IGMP query time and add it to each dynamic multicast group If the 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 The multicast groups created as described above are deleted in accordance with the timeout rules For example if no m
140. update results in the destruction of the firmware on the SMCS An update via TFTP is required see Starting with faulty software firmware on page 4 33 e t 4 10 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics Change Password menu Here you can enter the existing password and then change it to a new one known only to you By default upon delivery the password is private please note that it is case sensi tive For security reasons the input fields do not display your password but instead is displayed Change Password Enter old password fee Enter new password 990000000099 Retype new password 990000000099 The password must be between 4 and 12 characters long Attention The password wil be sent over the network in unencrypted format Figure 4 10 Change Password web page The password must be between four and twelve characters long Note that the password is always transferred 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 oe User Interfaces menu The following actions can be performed here Activating deactivating the web server Activating deactivating the SNMP agent Setting the refresh interval for the automatic updating of the web pages Here you can also set the refresh interval for automatic
141. updating of different web pages If the interval is set to 0 the pages will no longer be updated 1 Automatic updating of web pages is only possible when using Internet Explorer Version 5 5 or later User Interfaces Web Server Disable Enable SNMP Agent Disable Enable Be sure to have access after changing WEB to disable Web page refresh interval 30 05 up to 3600s The value 0 for the refresh interval disables the automatic refreshing Enter password Apply Figure 4 11 User Interfaces web page 7471_en_06 PHOENIX CONTACT 4 11 FL SWITCH SMCS Operating Mode menu Operation as a In this menu select whether the switch is to operate as a PROFINET device For additional PROFINET device information about operation as a PROFINET device see Section 9 Operation as a PROFINET device Operating Mode Default Profinet Mode Profinet Activating the mode Profinet the following settings wil b done select ip address assignment DCP enable clear the default System Name like FL SWITCH SMCS save the configuration execute a reboot Changing from the mode Profinet to an other mode the following settings will be done independently of the setting before selecting the mode profinet select ip address assignment BootP replace an empty System Name by the default System Name like FL SWITCH SMCS The settings become effective after saving the config
142. uration and rebooting the device Enter password Apply Figure 4 12 Operating Mode web page Config Management General menu This table is used to view all parameters that are required to save the active configuration or load a new configuration and to modify them by entering a valid password It can also be used to restart the system with the relevant configuration or to reset the SMCS to the default state upon delivery 4 12 PHOENIX CONTACT 7471_en_06 Configuration and diagnostics Configuration Management The configuration has been modified but Status of current configuration A not saved Save current configuration Configuration Name SMCS Configuration Enter password Set default upon delivery After setting the delivery status the device accomplishes a reboot automatically Enter password Load the last stored configuration The device accomplishes reboot to load the last stored configuration Enter password Figure 4 13 Configuration Management web page Possible states for Status of current configuration The configuration has been modified but not saved also indicated by the flashing floppy disk icon Saving the current configuration Thecurrent configuration is equal to the saved one in the non volatile memory of the switch The current configuration was saved Save current The active configuration together with the corresponding configurat
143. verted into a multicast MAC address according to the specifications of IEEE 802 1 D p Overwriting a dynamic group with a static configuration means that a new port assignment for this group cannot be created dynamically Port assignments for this group can only be started dynamically once the group has been deleted The guidelines for converting a multicast IP addresses into a multicast MAC address require the mapping of different IP groups to the same MAC group Avoid the use of IP groups That do not differ in the first and second byte from the right That differ by 128 in the third byte from the right 7 2 PHOENIX CONTACT 7471_en_06 Multicast filtering Port assignment The fourth byte from the right is always replaced by 01 00 5e during conversion See example below Because of the conversion from IP to MAC addresses you should avoid using IP ad dresses that differ by 128 in the third byte from the right Example 3 Byte 1 228 0 117 216 2 Multicast IP Adresse 230 117 216 Differenz 128 Both multicast IP addresses are converted into the multicast MAC address 01 00 5e 1e 75 d8 The group is added to the list of existing static multicast groups This list which is displayed in a list box is referred to as dot1qStaticMulticastTable in SNMP Settings are not automatically saved permanently The active configuration can be saved
144. ypical 16 port device Via COMBICON maximum conductor cross section 2 5 mm 24V DC 18 0 V DC 32 0 V DC 3 6 Vpp 500 V DC for 1 minute 0 65 A 14 5 W 7471_en_06 PHOENIX CONTACT 12 1 FL SWITCH SMCS Interfaces on the SMCS Number of Ethernet ports V 24 RS 232 communication interface Connection format Floating alarm contact Voltage Current carrying capacity Ethernet interfaces Properties of RJ45 ports Number Connection format Connection medium Cable impedance Transmission speed Maximum network segment length General properties of fiberglass ports Number Connection format Connection medium Connector Transmission speed Maximum network segment length Fiber type Laser protection class Properties of the 1000 Mbps multi mode ports FL SFP SX Data transmission speed Wavelength Maximum length of transmission Transmission power Minimum Maximum Receiver sensitivity Minimum Properties of 1000 Mbps single mode ports FL SFP LX Data transmission speed Wavelength Maximum transmission length with single mode fiber Maximum transmission length with multi mode fiber Transmission power Minimum Maximum Receiver sensitivity 8 16 Mini DIN socket 24V DC 100 mA Up to 8 16 with autocrossing and auto negotiation 8 pos RJ45 socket on the switch Twisted pair cable with a conductor cross section of 0 14 mm 0 22 mm 100 Ohm 10 100 1000 Mbps on switches with Gigabit support 10 100 Mb
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