Port Commands Set
Contents
1. disable reject accept state interface fastethernet 3 authorize configuration switch config if 48021x portstate command to set the accept state of the selected port show 8021x E Displays a summary of Switch gt show 8021x the 802 1x properties and also the port sates no 8021x G Disable 802 1x switch config no 8021x function TFTP Commands Set Commands Level Description Defaults Example backup G Save configuration to Switch config backup flash backup_cfg restore flash restore_cfg TFTP and need to flash backup_cfg specify the IP of TFTP server and the file name of image Get configuration from Switch config restore TFTP server and need to flash restore_cfg specify the IP of TFTP server and the file name of image upgrade flash upgrade_fw Upgrade firmware by Switch config upgrade TFTP and need to flash upgrade_fw specify the IP of TFTP server and the file name 141 of image SystemLog SMTP and Event Commands Set Commands Level Description Example systemlog ip IP address G Set System log server IP address Switch config systemlog ip 192 168 1 100 systemlog mode G Specified the log switch config systemlog mode client server both mode both show systemlog E Displays system log Switch gt show systemlog show systemlog Show system log switch show systemlog client amp server information n2. switch config interface fastEthernet 2 switch config if stp admin edge True 132 stp admin non stp True False Admin NonSTP of STP priority on this switch config interface fastEthernet 2 interface switch config if stp admin non stp False show spanning tree E Displays a summary of switch gt show spanning tree the spanning tree states no spanning tree G Disable spanning tree switch config no spanning tree QOS Commands Set Commands Level Description Example qos policy G Select QOS policy switch config qos policy weighted fair strict scheduling weighted fair dos prioritytype G Setting of QOS priority switch config qos prioritytype port based cos type only tos only cos first tos first qos priority portbased G Configure Port based switch config qos priority EON Priority portbased 1 low lowest low middle high qos priority cos G Configure COS switch config qos priority cos 0 Priority lowest low mid Priority middle dle high qos priority tos G Configure TOS Priority switch config qos priority tos 3 Priority lowest low mid high die high show qos P Displays the Switch show qos information of QoS configuration no qos G Disable QoS function switch config no qos 133 IGMP Commands Set Commands Level Description Example igmp enable G Enable IGMP snooping function switch con
3. system share key global configuration command to change the shared key value 139 sharedkey 123456 8021x system nasid words 8021x misc quietperiod sec Use the 802 1x system nasid global configuration command to change the NAS ID Use the 802 1x misc quiet period global configuration command to specify the quiet period value of the switch switch config 8021x system nasid test1 Switch config 8021x misc quietperiod 10 8021x misc txperiod sec Use the 802 1x misc TX period global configuration command to set the TX period Switch config 8021x misc txperiod 5 8021x misc supptimeout sec 8021x misc servertimeout sec Use the 802 1x misc supp timeout global configuration command to set the supplicant timeout Use the 802 1x misc server timeout global configuration command to set the server timeout Switch config 8021x misc supptimeout 20 Switch config 8021x misc servertimeout 20 8021x misc maxrequest Use the 802 1x misc Switch config 8021x misc number max request global maxrequest 3 configuration command to set the MAX requests 8021x misc Use the 802 1x misc Switch config 8021x misc reauthperiod sec reauth period global 140 reauthperiod 3000 configuration command to set the reauth period 8021x portstate Use the 802 1x port Switch config interface
4. EIA TIA 568 100 ohm 100m 100Base TX 2 pair UTP STP Cat 5 5E cable Network Cable EIA TIA 568 100 ohm 100m 1000Base TX 2 pair UTP STP Cat 5 5E cable EIA TIA 568 100 ohm 100m Distance Connector Multi mode 0 to 5 km 1300 nm 50 125 um 800 MHz km 0 to 4 km 1300 nm 62 5 125 um 500 MHz km Single mode 0 to 40 km 1310 nm 9 125 um 3 5 PS nm km 0 to 80 km 1550 nm 9 125 um 19 PS nm km Optical Fiber Min TX Output Multi mode 20 dBm Single mode 0 to 40 km 5 dBm 0 to 80 km 5 dBm Max TX Output Multi mode 14 dBm Single mode 0 to 40 km 0 dBm 0 to 80 km 0 dBm Sensitivity 36 to 32 dBm Single mode 34 to 30 dBm Multi mode PoE pin RJ 45 port 1 8 support IEEE 802 3af End point assignment Alternative A mode Per port provides 15 4W ability Positive VCC RJ 45 pin 1 2 Negative VCC RJ 45 pin 3 6 Per unit Power Green Power 1 Green Power 2 Green Fault Red Master Green FWD Green LED 8 port 10 100 Link Activity Green Full duplex Collision Amber SFP port LNK ACT Green 1000T LNK ACT Green 1000M Green External Power Supply DC 48V Redundant power DC 48V Power Supply and connective removable terminal block for master and slave power Power 116Watts Full load Consumption Operating 5 to 95 Non condensing Humidity Operating Standard Model 10 C 60 C Temperature Wide Operating Temperature Model 40 C 75 C Sto
5. Set interface ingress limit frame type to accept broadcast multicast and flooded unicast frame switch config interface fastEthernet 2 switch config if bandwidth type broadcast multicast flooded unicast bandwidth type Set interface ingress switch config interface 125 broadcast multicast limit frame type to accept broadcast and multicast frame fastEthernet 2 switch config if bandwidth type broadcast multicast bandwidth type broadcast only Set interface ingress limit frame type to only accept broadcast frame switch config interface fastEthernet 2 switch config if bandwidth type broadcast only bandwidth in Value Set interface input bandwidth Rate Range is from 100 kbps to 102400 kbps or to 256000 kbps for giga ports and zero means no limit switch config interface fastEthernet 2 switch config if bandwidth in 100 bandwidth out Value Set interface output bandwidth Rate Range is from 100 kbps to 102400 kbps or to 256000 kbps for giga ports and zero means no limit switch config interface fastEthernet 2 switch config if bandwidth out 100 show bandwidth Show interfaces bandwidth control switch config interface fastEthernet 2 switch config if show bandwidth state Enable Disable Use the state interface configuration command to specify the state mode of operation for
6. Port LACP State Activity Port LACP State Activity 1 N A 2 N A 3 M Active 4 N A 5 IV Active 6 N A 7 N A 8 N A 9 N A 10 N A Apply Help State Activity of Switch 1 70 Port Trunk State Activity Aggregator Setting I Aggregator Information I State Activity Port LACP State Activity Port LACP State Activity 1 N A 2 N A 3 N A 4 N A 5 N A 6 N A 7 IV Active 8 IV Active Q N A 10 N A Apply Help State Activity of Switch 2 71 6 16 Port Mirroring The Port mirroring is a method for monitor traffic in switched networks Traffic through ports can be monitored by one specific port which means traffic goes in or out monitored source ports will be duplicated into mirror destination port m Destination Port There is only one port can be selected to be destination mirror port for monitoring both RX and TX traffic which come from source port Or use one of two ports for monitoring RX traffic only and the other one for TX traffic only User can connect mirror port to LAN analyzer or Netxray m Source Port The ports that user wants to monitor All monitored port traffic will be copied to mirror destination port User can select multiple source ports by checking the RX or TX check boxes to be monitored m Andthen click Apply button Port Mirroring Destination Port Source Port RX TX RX TX Port 01 ce C Iv Iv Port 02 1c Iw Iv Port 03 C C Iw E Port 04 C C F Iv Port 05 C C M F Port 06 C C M M Port 07 C C M
7. ccccceceeeeeeeseeaeeeseeeeees 145 PoE Commands Set ccccsecscceccsceccsccsccececsees 146 Chapter 1 Introduction The 8 10 100TX 2 10 100 1000T Mini GBIC Combo with 8 PoE Injectors Managed Industrial Switch is a cost effective solution and meets the high reliability requirements demanded by industrial applications Using fiber port can extend the connection distance that increases the network elasticity and performance Besides the industrial switch provides the PoE function for kinds of Powered Devices to receive power as well as data over the RJ 45 cable 1 1 Hardware Features IEEE 802 3 10Base T Ethernet IEEE 802 3u 100Base TX FX IEEE802 3ab 1000Base T IEEE802 3z Gigabit fiber IEEE802 3x Flow Control and Back Pressure IEEE802 3ad Port trunk with LACP Standard IEEE802 3af Power over Ethernet IEEE802 1d Spanning Tree IEEE802 1w Rapid Spanning Tree IEEE802 1p Class of Service IEEE802 1Q VLAN Tag IEEE 802 1x User Authentication Radius IEEE802 1ab LLDP Switch Back plane Switching Fabric 5 6Gbps Architecture Packet throughput ability Full Duplex 8 3Mpps 64bytes 14 880pps for Ethernet port Transfer Rate 148 800pps for Fast Ethernet port 1 488 000pps for Gigabit Fiber Ethernet port Packet Buffer 1Mbits MAC Address 8K MAC address table 10 100TX 8 x RJ 45 10 100 1000T Mini GBIC Combo 2 x RJ 45 2 x 100 1000 SFP sockets RS 232 connector RJ 45 type 10Base T 2 pair UTP STP Cat 3 4 5 5E cable
8. m Click Add to add context name m Click Remove to remove unwanted context name MIBview Table Configure MIB view table ViewName set up the name Sub Oid Tree fill the Sub OID Type select the type exclude or included Click Add to add context name Click Remove to remove unwanted context name 93 6 21 QoS Configuration Quality of Service QoS is the ability to provide different priority to different applications users or data flows or to guarantee a certain level of performance to a data flow QoS guarantees are important if the network capacity is insufficient especially for real time streaming multimedia applications such as voice over IP or Video Teleconferencing since these often require fixed bit rate and are delay sensitive and in networks where the capacity is a limited resource for example in cellular data communication In the absence of network congestion QoS mechanisms are not required 6 21 1 QoS Policy and Priority Type Here you can choose to use an 8 4 2 1 queuing scheme or a strict priority scheme or select the priority type to configure QoS policy m Qos Policy Select the QoS policy rule gt Using the 8 4 2 1 weight fair queue scheme The switch will follow 8 4 2 1 rate to process priority queue from High to lowest queue For example while the system processing 1 frame of the lowest queue 2 frames of the low queue 4 frames of the middle queue and 8 frames of the high queue will b
9. 255 255 255 0 dhcpserver gateway G Configure gateway for switch config dhcpserver Gateway DHCP clients gateway 192 168 1 254 dhcpserver dnsip G Configure DNS IP for switch config dhcpserver dnsip DNS IP DHCP clients 192 168 1 1 dhcpserver leasetime G Configure lease time switch config dhcpserver Hours in hour leasetime 1 dhcpserver ipbinding IP address Set static IP for DHCP clients by port switch config interface fastEthernet 2 switch config dhcpserver ipbinding 192 168 1 1 123 show dhcpserver P Show configuration of switch show dhcpserver configuration DHCP server configuration show dhcpserver clients P Show client entries of switch show dhcpserver clients DHCP server show dhcpserver ip P Show IP Binding switch show dhcpserver ip binding information of DHCP binding server no dhcpserver G Disable DHCP server switch config no dhcpserver function security enable G Enable IP security switch config security enable function security http G Enable IP security of switch config security http HTTP server security telnet G Enable IP security of switch config security telnet telnet server security ip G Set the IP security list switch config security ip 1 Index 1 10 IP 192 168 1 55 Address show security P Show the information switch show security of IP security no security G Disable IP security switch
10. 3 127 comma ex 2 3 6 Workport The amount of work ports this value could not be less than zero or be large than the amount of member ports aggregator group G Assign a static trunk switch config aggregator group GroupID Port list group 1 2 4 nolacp nolacp GroupID 1 3 or Port list Member port switch config aggregator group list This parameter 1 3 1 2 nolacp could be a port range ex 1 4 or a port list separate by a comma ex 2 3 6 show aggregator P Show the information switch show aggregator 1 of trunk group or switch show aggregator 2 or switch show aggregator 3 no aggregator lacp G Disable the LACP switch config no aggreator lacp GroupID function of trunk group 1 no aggregator group G Remove a trunk group switch config no aggreator GroupID group 2 VLAN Commands Set Commands Level Description Example vian database P Enter VLAN configure switch vlan database mode Vianmode portbase 802 1q To set switch VLAN mode switch vian vlanmode portbase or 128 gvrp switch vian vlanmode 802 1q or switch vilan vlanmode gvrp no vian V No VLAN Switch vlan no vlan Ported based VLAN configuration vlan port based V Add new port based switch vlan vlan port based grpname VALN grpname test grpid 2 port 2 4 Group Name or grpid switch vlan vlan p
11. Edit Delete interface m Use Delete to delete the VLAN m Use Edit to modify group name VLAN ID or add remove the members of the existing VLAN group NOTE Remember to execute the Save Configuration action otherwise the new configuration will lose when switch power off 78 6 18 2 802 1Q VLAN Virtual Local Area Network VLAN can be implemented on the switch to logically create different broadcast domain When the 802 1Q VLAN function is enabled all ports on the switch belong to default VLAN of VID 1 which means they logically are regarded as members of the same broadcast domain The valid VLAN ID is in the range of number between 1 and 4094 The amount of VLAN groups is up to 256 including default VLAN that cannot be deleted Each member port of 802 1Q is on either an Access Link VLAN tagged or a Trunk Link no VLAN tagged All frames on an Access Link carry no VLAN identification Conversely all frames on a Trunk Link are VLAN tagged Besides there is the third mode Hybrid A Hybrid Link can carry both VLAN tagged frames and untagged frames A single port is supposed to belong to one VLAN group except it is on a Trunk Hybrid Link The technique of 802 1Q tagging inserts a 4 byte tag including VLAN ID of the destination port PVID in the frame With the combination of Access Trunk Hybrid Links the communication across switches also can make the packet sent through tagged and untagged ports 79 802
12. Enable Auto 100 Full 100 Half Enable OFF OFF Port 08 N A 100TX Down Enable Auto 100 Full N A Enable N A OFF Port 09 N A 1GTX MGBIC Down Enable Auto 1G Full N A Enable N A OFF Port 10 N A 1GTX mGBIC Down Enable Auto 116 Full N A Enable N A OFF Port Control interface 61 6 15 Port Trunk Port trunking is the combination of several ports or network cables to expand the connection speed beyond the limits of any one single port or network cable Link Aggregation Control Protocol LACP which is a protocol running on layer 2 provides a standardized means in accordance with IEEE 802 3ad to bundle several physical ports together to form a single logical channel All the ports within the logical channel or so called logical aggregator work at the same connection speed and LACP operation requires full duplex mode 6 15 1 Aggregator setting m System Priority A value which is used to identify the active LACP The switch with the lowest value has the highest priority and is selected as the active LACP peer of the trunk group m Group ID There are 13 trunk groups to be selected Assign the Group ID to the trunk group m LACP When enabled the trunk group is using LACP A port which joins an LACP trunk group has to make an agreement with its member ports first Please notice that a trunk group including member ports split between two switches has to enable the LACP function of the two switches When disabled the trunk gr
13. Ethernet ports Use the disable form of this command switch config interface fastEthernet 2 switch config if state Disable 126 to disable the port show interface configuration show interface configuration status switch config interface fastEthernet 2 switch config if show interface configuration show interface status show interface accounting show interface actual status show interface statistic counter switch config interface fastEthernet 2 switch config if show interface status switch config interface fastEthernet 2 switch config if show interface accounting no accounting Trunk Commands Set Clear interface accounting information switch config interface fastEthernet 2 switch config if no accounting Commands aggregator priority Level G Description Set port group system Example switch config aggregator priority 1 65535 priority 22 aggregator activityport G Set activity port switch config aggregator Group ID activityport 2 Port Numbers aggregator group G Assign atrunk group switch config taggregator group GroupID Port list lacp workp Workport with LACP active GroupID 1 3 Port list Member port list This parameter could be a port range ex 1 4 or a port list separate by a 1 1 4 lacp workp 2 or switch config aggregator group 2 1 4 3 lacp workp
14. M Port 08 c C M F Port 09 E Iv Port 10 C C Iv F Apply Help Port Trunk Port Mirroring interface 72 6 17 Rate Limiting You can set up every port s bandwidth rate and frame limitation type Ingress Limit Frame type select the frame type that wants to filter There are four frame types for selecting gt gt gt gt Broadcast Multicast Flooded Unicast Broadcast Multicast and Bbroadcast only types are only for ingress frames The egress rate only supports All type All the ports support port ingress and egress rate control For example assume port 1 is 10Mbps users can set it s effective egress rate is 1Mbps ingress rate is 500Kbps The switch performs the ingress rate by packet counter to meet the All Broadcast Multicast Flooded Unicast Broadcast Multicast Broadcast only Rate Limiting Ingress Limit Frame Type Ingress Egress porto fal Oks kbps All assina Broadcast Multicast Flooded Unicast fo kbps fo kbps Port 03 Broadcast Multicast lo kbps lo kbps Port 04 M adcast onl 0 kbps 0 kbps Port 05 Al SiO kbpsfo kbps Portos Jo kbpsfo kbps Porto7 Al fo kbpslO kbps Port os Al fo kbps O kbps Port o9fa Jo kbpslO kbps Port 10 ay 0 kbps 0 kbps Rate Range is from 100 kbps to 102400 kbps or to 256000 kbps for giga ports and zero means no limit Hep Rate Limiting interface specified rate 73 gt Ingress Enter the port effective ingress rate The default value i
15. Port based VLAN rrernnnnnvnvnnnrnrrnnnnnnnnnn 76 6 18 2 802 TOQ LAN iccchicscseuavaidsceayincsteaysesssaeneas 79 6 19 Rapid Spanning Tree rrrrrrrrvrrrvrnnvrvrnenn 84 6 19 1 RSTP System Configuration xxn00 84 6 19 2 Port Configuration rrrnnenonnnrnrrnnnnnnnnnr 86 6 20 SNMP Configuration 88 6 20 1 System Configuration rarnnnnrnrrnnnnvnnre 88 6 20 2 Trap ConmmiQuration cci sscsssansesecnctedsvestasspze 90 6 20 3 SNMPV3 Configuration snnrnernnnnvnnne 91 6 21 QoS Configuration rrnnnnnnnnnnnnnnnnnnnnnnnn 94 6 21 1 QoS Policy and Priority Type 94 6 21 2 Port based Priomty uaansravranmsssrunn 95 6 21 3 COS Configuration ccceeeeeeeeeeeees 96 6 21 4 TOS Configuration rrrrnnononnnrnnrnnnnnnnr 96 6 22 IGMP Configuration eseese 97 6 23 AN pe ET 99 6 24 LLDP Configuration rornnnnrnrrnrrnvnvnnn 101 6 25 Security 802 1X Radius Configuration 102 6 25 1 System Configuration annnnrrnnnnnnnne 102 6 25 2 Port CGonfiguralon mussurnsmsussstesam 104 6 25 3 Misc Configuration eeerrrrnrnnnnrrnrnnennn 105 6 26 MAC Address Table asnes 106 6 26 1 Static MAC AddreSS ccccccsseeeeeeees 106 6 26 2 MAG FINGHAG isis catcecsec cute caheatciane 108 6 26 3 All MAC AddreSSes cccccsseeeeeeeeeeees 109 6 26 4 MAC Address Table Multicast Filtering 110 6 27 Power over Ethernet ssssss
16. RK WO N m Pin out of PoE Midspan Hub Switch Pin Signal Name RX RX TX VCC VCC TX VCC VCC oOo N OO A OA N 120 m Pin out of PoE Endspan Hub Switch Note Pin Signal Name 1 TX VOC 2 TX VCC 3 TX VCC 4 5 6 TX VCC 7 8 and signs represent the polarity of the wires that make up each wire pair Before you power PD please check the RJ 45 connector pin assignment follow IEEE802 3af standard otherwise you may need to change one of the RJ 45 connector pin assignment attached with the UTP cable 121 Appendix B Command Sets Commands Set List User EXEC Privileged EXEC Global configuration VLAN database Interface configuration System Commands Set lt Oo nm Commands Level Description Example show config E Show switch configuration switch gt show config show terminal P Show console switch show terminal information write memory P Save user switch write memory configuration into permanent memory flash rom system name G Configure system switch config system name xxx System Name name system location G Set switch system switch config system location System Location location string XXX system description G Set switch system switch config system System Description description string description xxx system contact G Set switch system
17. interface Group Configuration Edit the existing VLAN Group m Select the VLAN group in the table list m Click Edit 82 VLAN Configuration VLAN Operation Mode 802 19 v IV Enable GVRP Protocol Management Wlan ID fo Apply 802 19 Configuration Edit Delete Group Configuration interface m You can modify the VLAN group name and VLAN ID VLAN Configuration VLAN Operation Mode 802 19 z IV Enable GVRP Protocol Management Wlan ID fo Apply Group Name L4N_3 vLANID 3 Apply Group Configuration interface m Click Apply 6 19 Rapid Spanning Tree The Rapid Spanning Tree Protocol RSTP is an evolution of the Spanning Tree Protocol and provides for faster spanning tree convergence after a topology change The system also supports STP and the system will auto detect the connected device that is running STP or RSTP protocol 6 19 1 RSTP System Configuration m The user can view spanning tree information of Root Bridge m The user can modify RSTP state After modification click Apply gt NOTE RSTP mode The user must enable the RSTP function first before configuring the related parameters Priority 0 61440 The switch with the lowest value has the highest priority and is selected as the root If the value is changed the user must reboot the switch The value must be a multiple of 4096 according to the protocol
18. period of time the switch waits for a supplicant response to an EAP request m Server Timeout Set the period of time the switch waits for a server response to an authentication request m Max Requests Set the number of authentication that must time out before authentication fails and the authentication session ends m Reauth period Set the period of time which clients connected must be re authenticated m Click Apply 802 1x Radius Misc Configuration System Configuration Port Configuration Misc Configuration Quiet Period lo Tx Period 30 Supplicant Timeout Bo Server Timeout 30 Max Requests 2 Reauth Period 3600 Apply Help 802 1x Misc Configuration interface 105 6 26 MAC Address Table Use the MAC address table to ensure the port security 6 26 1 Static MAC Address You can add a static MAC address that remains in the switch s address table regardless of whether the device is physically connected to the switch This saves the switch from having to re learn a device s MAC address when the disconnected or powered off device is active on the network again Via this interface you can add modify delete a static MAC address Add the Static MAC Address You can add static MAC address in the switch MAC table here m MAC Address Enter the MAC address of the port that should permanently forward traffic regardless of the device network activity m Port No Pull down the selection menu to s
19. standard rule Max Age 6 40 The number of seconds a switch waits without receiving Spanning tree Protocol configuration messages before attempting a reconfiguration Enter a value between 6 through 40 Hello Time 1 10 The time that controls the switch to send out the BPDU packet to check RSTP current status Enter a value between 1 through 10 Forward Delay Time 4 30 The number of seconds a port waits before changing from its Rapid Spanning Tree Protocol learning and listening states to the forwarding state Enter a value between 4 through 30 Follow the rule as below to configure the MAX Age Hello Time and Forward Delay Time 2 x Forward Delay Time value 1 gt Max Age value gt 2 x Hello Time value 1 84 RSTP System Configuration System Configuration Port Configuration RSTP Mode Enable gt Priority 0 61440 32768 Max Age 6 40 20 Hello Time 1 10 2 Forward Delay Time 4 30 fis Priority must be a multiple of 4096 2 Forward Delay Time 1 should be greater than or equal to the Max Age The Max Age should be greater than or equal to 2 Hello Time 1 Help Apply Root Bridge Information Bridge ID OO80000F3800055E Root Priority 32768 Root Port Root Root Path Cost 0 Max Age 20 Hello Time 2 Forward Delay 15 RSTP System Configuration interface 85 6 19 2 Port Configuration This web page provides the port configuration interface for RSTP You can assign higher or lower prio
20. switch config system contact System Contact contact window string xxx show system info E Show system switch gt show system info information ip address G Configure the IP switch config ip address Ip address Subnet mask Gateway address of switch 192 168 1 1 255 255 255 0 192 168 1 254 122 ip dhcp G Enable DHCP client switch config ftip dhcp function of switch show ip P Show IP information of switch show ip switch no ip dhcp G Disable DHCP client switch config no ip dhcp function of switch reload G der perform a cold switch config reload default G Restore to default switch config default admin username G Changes a login switch config admin username Username username XXXXXX maximum 10 words admin password G Specifies a password switch config admin password Password maximum 10 words XXXXXX show admin P Show administrator switch show admin information dhcpserver enable G Enable DHCP Server switch config dhcpserver enable Dhcpserver disable G Disable DHCP Server switch config no dhcpserver dhcpserver lowip G Configure low IP switch config dhcpserver lowip Low IP address for IP pool 192 168 1 100 dhcpserver highip G Configure high IP switch config dhcpserver highip High IP address for IP pool 192 168 1 200 dhcpserver subnetmask G Configure subnet switch config dhcpserver Subnet mask mask for DHCP clients subnetmask
21. system will check the TOS level value in the IP packet that has received For example the user sets the TOS level 25 as high the system will check the TOS value of the received IP packet If the TOS value of received IP packet is 25 priority high and then the packet priority will have highest priority m Click Apply to have the configuration take effect 96 6 22 IGMP Configuration The Internet Group Management Protocol IGMP is an internal protocol of the Internet Protocol IP suite IP manages multicast traffic by using switches routers and hosts that support IGMP Enabling IGMP allows the ports to detect IGMP queries report packets and manage IP multicast traffic through the switch IGMP have three fundamental types of message shown as follows A message sent from the querier IGMP router or switch Query asking for a response from each host belonging to the multicast group A message sent by a host to the querier to indicate that the host has quit being a member of a specific multicast group A message sent by a host to the querier to indicate that the Report host wants to be or is a member of a given group indicated in the report message The switch support IP multicast you can enable IGMP protocol on web management s switch setting advanced page then the IGMP snooping information displays IP multicast addresses range are from 224 0 0 0 through 239 255 255 255 IGMP Protocol enable or disable the IGMP pr
22. the event log email alert will be sent to the system log server and the SMTP server respectively Also Port event log alert link up link down and both can be sent to the system log server SMTP server respectively by setting the trigger condition m System event selection There are 3 event types Device Cold Start Authentication Failure and Ring Topology Change The checkboxes are not available for ticking unless the Syslog Client Mode on the Syslog Configuration tab and the E mail Alert on the SMTP Configuration tab are enabled first gt Device cold start When the device executes cold start action the system will issue the event log email alert to the system log SMTP server respectively Authentication Failure When the SNMP authentication fails the system will issue the event log email alert to the system log SMTP server respectively Ring topology change When the Ring topology has changed the system will issue the event log email alert to the system log SMTP server respectively m Port event selection Also before the drop down menu items are available the Syslog Client Mode selection item on the Syslog Configuration tab and the E mail Alert selection item on the SMTP Configuration tab must be enabled first Those drop down menu items have 3 selections Link UP Link Down and Link UP amp Link Down Disable means no event will be sent to the system log SMTP server gt Link UP The system will onl
23. up the group name Click Add to add context name Click Remove to remove unwanted context name 91 SNMP SNMPv3 Configuration System Configuration Trap Configuration I SNMPv3 Configuration Context Table Context Name Apply User Table Current User Profiles New User Profile Remove none User ID Authentication Password Privacy Password Group Table Current Group content New Group Table Remove none a Security Name User ID Group Name Access Table Current Access Tables New Access Table Remove none Context Prefix Group Name f C NoAuthNoPriv C AuthNoPriv Security Level C AuthPriv Context Match Rule Exact Prefix Read View Name Write View Name Notify View Name MIBView Table Current MIBTables New MIBView Table Remove none View Name SubOid Tree Type Excluded Included Help ote Any modification of SNMPv3 tables might cause MIB accessing rejection Please take notice of the causality between the tables before you modify these tables SNMP V3 configuration interface Access Table Configure SNMP v3 access table Context Prefix set up the context name Group Name set up the group Security Level select the access level Context Match Rule select the context match rule Read View Name set up the read view Write View Name set up the write view Notify View Name set up the notify view 92 Add Add Add Add
24. 1Q Configuration m Pull down the selection item and focus on 802 1Q then press Apply to set the VLAN Operation Mode in 802 1Q mode m Enable GVRP Protocol GVRP GARP VLAN Registration Protocol is a protocol that facilitates control of virtual local area networks VLANs within a larger network GVRP conforms to the IEEE 802 1Q specification which defines a method of tagging frames with VLAN configuration data This allows network devices to dynamically exchange VLAN configuration information with other devices For example having enabled GVRP on two switches they are able to automatically exchange the information of their VLAN database Therefore the user doesn t need to manually configure whether the link is trunk or hybrid the packets belonging to the same VLAN can communicate across switches Tick this checkbox to enable GVRP protocol This checkbox is available while the VLAN Operation Mode is in 802 1Q mode m Management VLAN ID Only when the VLAN members whose Untagged VID PVID equals to the value in this column will have the permission to access the switch The default value is 0 that means this limit is not enabled all members in different VLANs can access this switch Select the port you want to configure Link Type There are 3 types of link type gt Access Link A segment which provides the link path for one or more stations to the VLAN aware device An Access Port untagged port connected to the access lin
25. 48V sr Bottom Panel of the industrial switch 2 4 LED Indicators The diagnostic LEDs that provide real time information of system and optional status are located on the front panel of the industrial switch The following table provides the description of the LED status and their meanings for the switch Color Green The switch unit is power on The industrial switch is the master of Ring group The industrial switch is not a ring master in Ring group pa om AR ei o o or peen o o pem oo a per E or p or ee O Green Siiki The port is transmitting or receiving packets inkin Upper LED from the TX device P9 P10 RJ 1 No device attached 45 1000M Lower LED E Link Active P9 P10 SFP FWD P1 P8 The SFP port is linking Sii The port is transmitting or receiving packets inks from the TX device CE No device attached Ei A network device is detected DE The port is transmitting or receiving packets Blinking from the TX device No device attached The port is operating in full duplex mode Blinking Collision of Packets occurs The port is in half duplex mode or no device is attached A powered device is connected utilizing Power over Ethernet on the port No device is connected or power forwarding fails Chapter 3 Hardware Installation In this paragraph we will describe how to install the 8 10 100TX w Ring Managed Industrial Switch and t
26. 6 ayy 38 39 Lowest m EE LE ee em mm mm Priority 40 Lowest z is v paver x ver x ver v ver x ver ver v Priority 48 49 Lowest z EE pm ms pm pm pms pm Priority 56 Lowest x mm v 7 oe z ms x ros z v mo v Apply Help QoS Configuration interface 6 21 2 Port based Priority Configure the priority level for each port With the drop down selection item of Priority Type above being selected as Port based this control item will then be available to set the queuing policy for each port 95 m Port x Each port has 4 priority levels High Middle Low and Lowest to be chosen m Click Apply to have the configuration take effect 6 21 3 COS Configuration Set up the COS priority level With the drop down selection item of Priority Type above being selected as COS only COS first this control item will then be available to set the queuing policy for each port m COS priority Set up the COS priority level 0 7 High Middle Low Lowest m Click Apply 6 21 4 TOS Configuration Set up the TOS priority With the drop down selection item of Priority Type above being selected as TOS only TOS first this control item will then be available to set the queuing policy for each port m TOS priority The system provides 0 63 TOS priority level Each level has 4 types of priority High Middle Low and Lowest The default value is Lowest priority for each level When the IP packet is received the
27. AWG 3 5 Wiring the Fault Alarm Contact The fault alarm contacts are in the middle of the terminal block connector as the picture shows below Inserting the wires the switch will detect the fault status of the power failure or port link failure available for managed model and then forms an open circuit The following illustration shows an application example for wiring the fault alarm contacts NOTE The wire gauge for the terminal block should be in the range between 12 24 AWG 7 Industrial Switch The closed cireuit will open when the i failure occurs SJ a ee A See i Fault Alarm Contacts 3 amp 4l 3 6 Cabling m Use four twisted pair Category 5e or above cabling for RJ 45 port connection The cable between the switch and the link partner switch hub workstation etc must be less than 100 meters 328 ft long m Fiber segment using single mode connector type must use 9 125 um single mode fiber cable User can connect two devices in the distance up to 30km m Fiber segment using multi mode connector type must use 50 or 62 5 125 um multi mode fiber cable User can connect two devices up to 2km distances m Gigabit Copper SFP mini GBIC combo port The Industrial switch has the auto detected Giga port Gigabit Copper SFP combo ports The Gigabit Copper 10 100 1000T ports should use Category 5e or above UTP STP cable for the connection up to 1000Mbps The small form factor pluggable SFP is a
28. Backup File Name Type in the file name m Click Apply TF TP Backup Configuration Update Firmware Restore Configuration I Backup Configuration TFTP Server IP Address 192 168 16 2 Backup File Name data bin Apply Help Backup Configuration interface 43 6 8 System Event Log This page allows the user to decide whether to send the system event log and select the mode which the system event log will be sent to client only server only or both client and server What kind of event log will be issued to the client server depends on the selection on the Event Configuration tab There are four types of event Device Cold Start Authentication Failure Ring Topology Change and Port Event available to be issued as the event log 6 8 1 Syslog Configuration m Syslog Client Mode Select the system log mode Client Only Server Only or Both Client Only means the system event log will only be sent to this interface of the switch but on the other hand Server Only means the system log will only be sent to the remote system log server with its IP assigned If the mode is set in Both the system event log will be sent to the remote server and this interface m System Log Server IP Address When the Syslog Mode item is set as Server Only Both the user has to assign the system log server IP address to which the log will be sent m Click Reload to refresh the event log displaying area m Click Clear t
29. GINLAIFo 8 port 10 100TX 2 port Gigabit Copper Mini GBIC SNMP Managed Industrial Switch with 8 PoE Injector Ports User Manual Antala www antaira com FCC Warning This Equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy It may cause harmful interference to radio communications if the equipment is not installed and used in accordance with the instructions However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures m Reorient or relocate the receiving antenna m Increase the separation between the equipment and receiver m Connect the equipment into an outlet on a circuit different from that to which the receiver is connected m Consult the dealer or an experienced radio TV technician for help CE Mark Warning This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures Content O Chapte
30. Ring protocol that can help the network system to recovery from network connection failure within 20ms or less and make the network system more reliable The Ring algorithm is similar to spanning tree protocol STP algorithm but its recovery time is faster than STP The following figure is a sample Ring application Data collect server Human Management Interface Enterprise Switch Industrial Switch Ring Field Management Industrial Switch Distribute I O control system I Il i Serial Device Server Field Automatic device Field Automatic device Field Automatic device Programmable logic controller 24 4 2 Coupling Ring Application In the network it may have more than one Ring group By using the coupling ring function it can connect each Ring for the redundant backup It can ensure the transmissions between two ring groups not to fail The following figure is a sample of coupling ring application Coupling Ring ad Pj Port T Path Port PENNEN Backup path Couple Ring Group f d ET id Port switch 2 d Ring Sak A aw Group B as path 25 4 3 Dual Homing Application Dual Homing function is to prevent the connection lose from between Ring group and upper level core switch Assign two ports to be the Dual Homing port that is backup port in the Ring group The Dual Homing function only works when the Ring function is active Each Ring group only has one Dual Homi
31. U Stop bits fi v Flow control Noes O SY Bits per second Advanced Restore Defaults The settings of communication parameters Having finished the parameter settings click OK When the blank screen shows up press Enter key to have the login prompt appears Key in root default value for both User name and Password use Enter key to switch then press Enter and the Main Menu of console management appears Please see below figure for login screen 28 User Name root Password Console login interface 29 5 4 CLI Management The system supports the console management CLI command After you log in on to the system you will see a command prompt To enter CLI management interface type in enable command switch gt e switch CLI command interface The following table lists the CLI commands and description 5 5 Commands Level Access About This Mode1 Method The user commands available at the user level are a subset of Begina Enter those available at the User EXEC session with switch gt logout or privileged level your switch quit Use this mode to e Perform basic tests e Display system information The privileged Enter the command is the enable Enter advanced mode Privileged EXEC command switch disable to Use this mode to while in User exit e Display advanced EXEC mode function status e Save configuration 30 Global Configurati
32. al File Transfer Protocol TFTP server Before updating make sure the TFTP server is ready and the firmware image is located on the TFTP server 6 7 1 Update Firmware m TFTP Server IP Address Type in your TFTP server IP m Firmware File Name Type in the name of the firmware image file to be updated m Click Apply TFTP Update Firmware Update Firmware Restore Configuration Backup Configuration TFTP Server IP Address 192 168 16 2 Firmware File Name fimage bin Apply Help Update Firmware interface 41 6 7 2 Restore Configuration You can restore a previous backup configuration from the TFTP server to recover the settings Before doing that you must locate the image file on the TFTP server first and the switch will download back the flash image TFTP Server IP Address Type in the TFTP server IP Restore File Name Type in the correct file name for restoring m Click Apply TFTP Restore Configuration Update Firmware I Restore Configuration Backup Configuration TFTP Server IP Address 192 168 16 2 Restore File Name data bin Apply Help Restore Configuration interface 42 6 7 3 Backup Configuration You can back up the current configuration from flash ROM to the TFTP server for the purpose of recovering the configuration later It helps you to avoid wasting time on configuring the settings by backing up the configuration m TFTP Server IP Address Type in the TFTP server IP m
33. al the installation is complete 3 2 DIN Rail Mounting The DIN Rail is screwed on the industrial switch when out of factory If the DIN Rail is not screwed on the industrial switch please see the following pictures to screw the DIN Rail on the switch Follow the steps below to hang the industrial switch Rear Side DIN Rail 1 First insert the top of DIN Rail into the track ae 2 Then lightly push the DIN Rail into the track 3 Check if the DIN Rail is tightened on the track or not 4 To remove the industrial switch from the track reverse above steps 3 3 Wall Mount Plate Mounting Follow the steps below to mount the industrial switch with wall mount plate 1 Remove the DIN Rail from the industrial switch loose the screws to remove the DIN Rail 2 Place the wall mount plate on the rear panel of the industrial switch 3 Use the screws to screw the wall mount plate on the industrial switch 4 Use the hook holes at the corners of the wall mount plate to hang the industrial switch on the wall 5 Toremove the wall mount plate reverse the above steps 3 4 Wiring the Power Inputs Please follow the steps below to insert the power wire 1 Insert AC or DC power wires into the contacts 1 and 2 for power 1 or 5 and 6 for power 2 Tighten the wire clamp screws for preventing the wires from loosing NOTE The wire gauge for the terminal block should be in the range between 12 24
34. anage the task This means that a new computer can be added to a network without the hassle of manually assigning it a unique IP address The system provides the DHCP server function Having enabled the DHCP server function the switch system will be configured as a DHCP server 37 6 6 1 System configuration DHCP Server Enable or Disable the DHCP Server function Enable the switch will be the DHCP server on your local network Low IP Address Type in an IP address Low IP address is the beginning of the dynamic IP range For example dynamic IP is in the range between 192 168 16 100 192 168 16 200 In contrast 192 168 16 100 is the Low IP address High IP Address Type in an IP address High IP address is the end of the dynamic IP range For example dynamic IP is in the range between 192 168 16 100 192 168 16 200 In contrast 192 168 16 200 is the High IP address Subnet Mask Type in the subnet mask of the IP configuration Gateway Type in the IP address of the gateway in your network DNS Type in the Domain Name Server IP Address in your network Lease Time sec It is the time period that system will reset the dynamic IP assignment to ensure the dynamic IP will not been occupied for a long time or the server doesn t know that the dynamic IP is idle And then click Apply DHCP Server System Configuration System Configuration Client Entries Port and IP Binding DHCP Server Disable v Low IP Addres
35. ap manager is defined no traps will be issued To define a management station as a trap manager assign an IP address enter the SNMP community strings and select the SNMP trap version IP Address Enter the IP address of the trap manager Community Enter the community string for the trap station Trap Version Select the SNMP trap version type v1 or v2c m Click Add m To remove the community string select the community string listed in the current managers field and click Remove SNMP Trap Configuration System Configuration I Trap Configuration SNMPv3 Configuration Trap Managers Current Managers New Manager Remove Add 192 168 16 21 TrapHost v1 IP Address 192 168 16 23 192 168 16 22 TrapHost2 v2 Community TrapHost3 Trap version Help Trap Managers interface yi y2c 90 6 20 3 SNMPV3 Configuration Configure the SNMP V3 function Context Table Configure SNMP v3 context table Assign the context name of context table Click Add to add context name User Table Configure SNMP v3 user table m User ID set up the user name m Authentication Password set up the authentication password m Privacy Password set up the private password m Click Add to add context name m Click Remove to remove unwanted context name Group Table Configure SNMP v3 group table Security Name User ID assign the user name that you have set up in user table Group Name set
36. ation m Capacitive Detection If the port and capacitive detection are enabled the capacitances state reads in the voltage result from the constant current This is then 111 subtracted from the pre capacitance voltage to get a charge rate If this charge rate is within the window of the PD signatures the device is considered to be discovered And then click Apply to carry into effect Port The index of PoE ports Enable State Check it to enable the PoE function to the port Power Limit From Check it to decide the power limit method gt Classification When this check box is ticked the system will limit the power supply to the powered device in accordance with the related class Legacy Check it to support the legacy power devices Priority Pull down the selection menu item to choose the priority of power supplying Port Limit lt 15400 mW User can key in the power limit value which is under 15 4 Watts Mode Displays the operating mode of the port Current mA Displays the operating current of the port Voltage V Displays the operating voltage of the port Power mW Displays the power consumption of the port Determined Class Displays the PD s class And then click Apply to carry into effect 112 6 28 Factory Default Reset switch to default configuration Click Default to reset all configurations to the default value Factory Default IV Keep current IP address setting M Keep current usernam
37. bytes m System Description Describes the switch System Location Assign the switch physical location The maximum length is 64 bytes System Contact Enter the name of contact person or organization Firmware Version Displays the switch s firmware version Kernel Version Displays the kernel software version MAC Address Displays the unique hardware address assigned by manufacturer default E Andthen click Apply System Information System Name System Description 8 10 100TX 2 10 100 1000T Mini GBIC Combo w 8 PoE Injec System Location CT System Contact D Apply Help Firmware Version v1 11 Kernel Version v1 58 MAC Address 000F38674FFB Switch settings interface 34 6 5 IP Configuration The switch is a network device which needs to be assigned an IP address for being identified on the network Users have to decide a means of assigning IP address to the switch m DHCP Client Enable or disable the DHCP client function When DHCP client function is enabled the switch will be assigned an IP address from the network DHCP server The default IP address will be replaced by the assigned IP address on DHCP server After the user clicks Apply a popup dialog shows up to inform the user that when the DHCP client is enabled the current IP will lose and user should find the new IP on the DHCP server m IP Address Assign the IP address that the network is using If DHCP client function is enabled this switch
38. ceiver please follow the steps shown below First press the upper side of the LC connector to release from the transceiver and pull it out Remove LC connector Second push down the metal loop and pull the transceiver out by the plastic handle Pull out from the transceiver 21 Chapter 4 Network Application This chapter provides some sample applications to help user to have more actual idea of industrial switch function application A sample application of the industrial switch is as below Data collect server Human Management Interface y Lal Enterprise Switch Industrial Switch Industrial Industrial Switch ef i Switch Field Management Programmable logic controller Distribute I O control system I li Serial Device Server Field Automatic device Field Automatic device Field Automatic device Field Automatic device 22 The illustration below shows an example of power over Ethernet application Uplink via Fiber Uplink via UTP STP PoE Industrial Switch Power over Ethemet Power over Ethemet Power over Ethernet t PoE Splitter Power over Ethemet Power over Ethemet Ethemet Cable 7 Power Cable t POE SPIR i mn b A VOIP Phone IP Camera Wireless AP MEN Ethemet Cable EE nec cane IEEE 802 3af Compliant Powered Devices Non PoE Devices 23 4 1 Ring Application The industrial switch supports the
39. cket flooding however for the purpose of sharing resource a single port called a common port can belongs to different VLANs which all the member devices ports in different VLANs have the permission to access the common port while they still cannot communicate with each other in different VLANs VLAN Configuration VLAN Operation Mode Port Based v I Enable GVRP Protocol Management Vlan ID fo Add Edit Delete Help VLAN Port Based interface m Pull down the selection item and focus on Port Based then press Apply to set the VLAN Operation Mode in Port Based mode m Click Add to add a new VLAN group The maximum VLAN groups are up to 64 76 VLAN Configuration VLAN Operation Mode Port Based Enable GVRP Protocol Management Wlan ID E Apply Group Name fvLAN 1 VLAN ID 79 Port 05 Port 06 Fort 07 Port 03 Port 08 Port O0 4 Paort 09 Add Port 10 Remove Fort 01 Apply Help VLAN Port Based Add interface Enter the group name and VLAN ID Add the selected port number into the right field to group these members to be a VLAN group or remove any of them listed in the right field from the VLAN And then click Apply to have the configuration take effect You will see the VLAN list displays 77 VLAN Configuration VLAN Operation Mode Port Based gt I Enable GVRP Protocol Management Wlan ID fo VLAN 1 79 Add Edit Delete Help VLAN Port Based
40. compact optical transceiver used in optical communications for both telecommunication and data communications The SFP slots supporting dual mode can switch the connection speed between 100 and 1000Mbps They are used for connecting to the network segment with single or multi mode fiber You can choose the appropriate SFP transceiver to plug into the slots Then use proper multi mode or single mode fiber according to the transceiver With fiber optic it transmits at speed up to 1000 Mbps and you can prevent noise interference from the system Note The SFP Copper Combo port can t both work at the same time The SFP port has the higher priority than copper port if you insert the 1000M SFP transceiver which has connected to the remote device via fiber cable into the SFP port the connection of the accompanying copper port will link down If you insert the 100M SFP transceiver into the SFP port even without a fiber connection to the remote the connection of the accompanying copper port will link down immediately To connect the transceiver and LC cable please follow the steps shown below First insert the transceiver into the SFP module Notice that the triangle mark is the bottom of the module Triangle Mark Transceiver to the SFP module Transceiver Inserted Second insert the fiber cable of LC connector into the transceiver 19 LC connector to the transceiver 20 To remove the LC connector from the trans
41. config no security function no security http G Disable IP security of switch config no security http HTTP server no security telnet G Disable IP security of switch config no security telnet telnet server Port Commands Set Commands Level Description Example interface fastEthernet G Choose the port for switch config interface Portid modification fastEthernet 2 124 duplex full half speed 10 100 1000 auto Use the duplex configuration command to specify the duplex mode of operation for Fast Ethernet Use the speed configuration command to specify the speed mode of operation for Fast Ethernet the speed can t be set to 1000 if the port isn t a giga port switch config interface fastEthernet 2 switch config if duplex full switch config interface fastEthernet 2 switch config if speed 100 no flowcontrol Disable flow control of interface switch config if no flowcontrol security enable Enable security of interface switch config interface fastEthernet 2 switch config if security enable no security Disable security of interface switch config interface fastEthernet 2 switch config if no security bandwidth type all Set interface ingress limit frame type to accept all frame switch config interface fastEthernet 2 switch config if bandwidth type all bandwidth type broadcast multicast flooded unicast
42. e NZST New Zealand 12 hours Midnight Standard NZT New Zealand m SNTP Sever URL Set the SNTP server IP address You can assign a local network time server IP address or an internet time server IP address m Switch Timer When the switch has successfully connected to the SNTP server whose IP address was assigned in the column field of SNTP Server URL the current coordinated time is displayed here m Daylight Saving Period Set up the Daylight Saving beginning date time and Daylight Saving ending date time Please key in the value in the format of YYYYMMDD and HH MM leave a space between YYYYMMDD and HH MM gt YYYYMMDD an eight digit year month day specification gt HH MM a five digit including a colon mark hour minute specification For example key in 20070701 02 00 and 20071104 02 04 in the two column fields respectively to represent that DST begins at 2 00 a m on March 11 2007 and ends at 2 00 a m on November 4 2007 m Daylight Saving Offset mins For non US and European countries specify the amount of time for day light savings Please key in the valid figure in the range of minute between 0 and 720 which means you can set the offset up to 12 hours m Synchronization Interval secs The Synchronization Interval is used for sending synchronizing packets periodically User can assign range from 64s to 1024s The default setting of values is O means that you disable the auto synchr
43. e Capacitive Detection detect enable port PortNumbers state P Set PoE port State switch poe it port 1 state disable Enable Disable port PortNumbers plfc P Set PoE port Power _ switch poe port 1 plfc enable Enable Disable gl je Classification port PortNumbers P Set PoE port Legacy switch poe it port 1 legacy enable legacy Enable Disable port PortNumbers P priority Low High Critical Set PoE port Priority switch poe port 1 priority high 146 P Set PoE port Power switch poe it port 1 powerlimit Limit Value 15300 port PortNumbers powerlimit Value P Show setting of PoE switch show poe Show poe function 147
44. e amp password Reset Help Factory Default interface 113 6 29 Save Configuration Save all configurations that you have made in the system To ensure the all configuration will be saved Click Save Flash to save the all configuration to the flash memory Save Configuration Save Configuration interface 114 6 30 System Reboot Reboot the switch in software reset Click Reboot to reboot the system System Reboot Please click Reboot button to restart switch device Reboot System Reboot interface 115 Troubleshooting m Verify that is using the right power cord adapter DC 24 48V please don t use the power adapter with DC output higher than 48V or it may damage this device m Select the proper UTP STP cable to construct the user network Use unshielded twisted pair UTP or shield twisted pair STP cable for RJ 45 connections that depend on the connector type the switch equipped 100Q Category 3 4 or 5 cable for 10Mbps connections 100Q Category 5 cable for 100Mbps connections or 100 Q Category 5e above cable for 1000Mbps connections Also be sure that the length of any twisted pair connection does not exceed 100 meters 328 feet m Diagnosing LED Indicators To assist in identifying problems the switch can be easily monitored through panel indicators which describe common problems the user may encounter and where the user can find possible solutions m f the power indicator does no
45. e processed at the same time in accordance with the 8 4 2 1 policy rule gt Use a strict priority scheme Always the higher queue will be processed first except the higher queue is empty gt Priority Type There are 5 priority type selections available Port based TOS only COS only TOS first and COS first Disable means no priority type is selected m Click Apply to have the configuration take effect 94 QoS Configuration Qos Policy Use an 8 4 2 1 weighted fair queuing scheme C Use a strict priority scheme Priority Type Disable v Apply Help Port based Priority Port 01 Port 02 Port 03 Port 04 Port 05 Port 06 Port 07 Port 08 Port 09 Port 10 Lowest v Lowest 7 Lowest v Lowest 7 Lowest v Lowest 7 Lowest v Lowest z Lowest v Lowest 7 Apply Help cos Priority 0 1 2 3 4 5 6 Fd Lowest v Lowest x Lowest z Lowest v Lowest z Lowest v Lowest z Lowest z Apply Help TOS Priority 0 1 2 3 4 6 i Lowest z Lowest 7 Lowest 7 Lowest z Lowest 7 Lowest z Lowest 7 Lowest z Priority 8 9 10 11 12 13 14 15 Lowest x Lowest Lowest x Lowest x Lowest x Lowest x Lowest x Lowest Priority 16 17 18 19 20 21 22 23 Lowest v Lowest v Lowest x Lowest v Lowest z Lowest v Lowest x Lowest z Priority 24 25 26 27 28 29 30 31 Lowest v Lowest z Lowest z Lowest v Lowest 7 Lowest z Lowest z Lowest z Priority 32 33 34 35 3
46. ed Key fi2345678 tc t NAS Identifier NAS_L2 SWITCH Apply Help 802 1x System Configuration interface 103 6 25 2 Port Configuration You can configure the 802 1x authentication state for each port The state provides Disable Accept Reject and Authorize m Reject The specified port is required to be held in the unauthorized state m Accept The specified port is required to be held in the authorized state m Authorize The specified port is set to the Authorized or Unauthorized state in accordance with the outcome of an authentication exchange between the Supplicant and the authentication server m Disable When disabled the specified port works without complying with 802 1x protocol m Click Apply 802 1x Radius Port Configuration System Configuration I Port Configuration Misc Configuration Port State Port 02 Port 03 Port 04 Port 05 gt Authorize v Reject Accept Authorize 9 Hejppisable X Port Authorization Port State Port 01 Disable Port 02 Disable Port 03 Disable Port 04 Disable Port 05 Disable Port 06 Disable Port 07 Disable Port 08 Disable Port 09 Disable Port 10 Disable 802 1x Per Port Setting interface 104 6 25 3 Misc Configuration Quiet Period Set the period which the port doesn t try to acquire a supplicant TX Period Set the period the port waits for retransmit next EAPOL PDU during an authentication session m Supplicant Timeout Set the
47. eeeeeeees 111 6 28 Factory Default rrrrrrnnnrnnvrnrrrnnnrnnernne 113 6 29 Save Configuration rrrnnnnrnrrnrrnvvernnn 114 6 30 System Reboot rrrrrrrrrnrnnnnrnrrrrorernennnn 115 Troubleshooting ssannuuvevnnnnnnnunnrnnnnnnnnunennennnnnnnuner 116 Appendix A RJ 45 Pin Assignment 117 RJ 45 Pin ASSIQGNMENIS ccccccseeseeeeeeeeeeeseeeees 117 RJ 45 Pin Assignment of POE cccccsseeeeeeees 120 Appendix B Command Sets cccccccccccccccccceees 122 System Commands Set c ceseseeeeeeeeeeeeeeeaeens 122 Pon Commands SA ass 124 Trunk Commands Set rrrrrornnnnnnrrnrororvrvnvvnrnnnnnnn 127 VLAN Commands Set 0eeseeeeeeeeeeeeeeeeeaeens 128 Spanning Tree Commands Set rrrnrnrnnnnnnnnnnnne 130 QOS Gommands Sel pusses ANNES 133 IGMP Commands Set rrrrrornnnnrnnrnnrrvrvrvrrvrrnnnnnnn 134 Multicast Filtering Commands Set rrrrrornnnnrrrr 134 LLDP Commands SANNER 135 Mac Filter Table Commands Set 05 135 SNMP Commands Set cccceceececcecceccececeeeeess 136 Port Mirroring Commands Set nnnnnnnnnnnnnnnnnnnnn 138 802 1x Commands Set rrrrnnrnrrrnrnnnnnnnrrrrnorvrnennnn 139 TETP Commands SEL 141 SystemLog SMTP and Event Commands Set 142 Fault Relay Alarm Commands S t 000008 144 SNTP Commands Se t ssssesseeeeeeeeeeeeeeeaeees 144 Ring Commands Set
48. elect the port number m Click Add m If you want to delete the MAC address from filtering table select the MAC address and click Delete 106 MAC Address Table Static MAC Addresses Static MAC Addresses MAC Filtering All Mac Addresses Multicast Filtering AABBCCDDEEFF Port 01 FFEEDDCCBBAA Port 01 MAC Address aapp33445566l Port No Port 01 v Delete Help Static MAC Addresses interface 107 6 26 2 MAC Filtering By filtering MAC address the switch can easily filter the pre configured MAC address and reduce the un safety You can add and delete filtering MAC address MAC Address Table MAC Filtering Static MAC Addresses I MAC Filtering All Mac Addresses Multicast Filtering 142B3C4D5E6F amp 1B2C3D4E5F6 MAC Address 6e4c5a3b2d1f Delete Help MAC Filtering interface m MAC Address Enter the MAC address that you want to filter m Click Add m If you want to delete the MAC address from the filtering table select the MAC address and click Delete 108 6 26 3 All MAC Addresses You can view all of the MAG addresses learned by the selected port Select the port number The selected port of static amp dynamic MAG address information will be displayed in here m Click Clear MAC Table to clear the dynamic MAG addresses information of the current port shown on the screen MAC Address Table All Mac Addresses Static MAC Addresses MAC Filtering I A
49. enable G Enable SNTP function switch config sntp enable sntp daylight G_ Enable daylight saving switch config sntp daylight time if SNTP function is inactive this command can t be applied sntp daylight period G Set period of daylight switch config sntp daylight Start time End time saving time if SNTP period 20060101 01 01 function is inactive 20060202 01 01 this command can t be applied Parameter format yyyymmdd hh mm sntp daylight offset G Set offset of daylight switch config sntp daylight Minute saving time if SNTP ___joffset 3 function is inactive this command can t be applied snip ip G Set SNTP server IP if switch config sntp ip 192 169 1 1 IP SNTP function is 144 inactive this command can t be applied sntp timezone G Set timezone index switch config sntp timezone 22 Timezone use show snip timzezone command to get more information of index number sntp sync interval G Setsynchronization switch config sntp sync interval Secs interval 64 show sntp P Show SNTP switch show sntp information show sntp timezone P Show index number of switch show sntp timezone time zone list no sntp G Disable SNTP function switch config no sntp no sntp daylight G Disable daylight switch config no sntp daylight saving time Ring Commands Set Commands Level Description Example ring enable G Enable Ring switch conf
50. ent for switch config interface Link UP Link SMTP fastethernet 3 Down Both switch config if event smtp both show event Show event selection switch show event no event device cold start Disable cold start event type switch config no event device cold start no event authentication failure no event ring topology change Disable Authentication failure event typ Disable Ring topology changed event type switch config no event authentication failure switch config no event ring topology change no event systemlog Disable port event for system log switch config interface fastethernet 3 switch config if no event systemlog no event smpt Disable port event for SMTP switch config interface fastethernet 3 switch config if no event smtp show systemlog Show system log client amp server information switch show systemlog 143 Fault Relay Alarm Commands Set Commands Level Description Example faultrelay power G Configure Relay Alarm for Power Failure switch config faultrelay power 1 faultrelay Configure Relay Alarm switch config interface enable disable for Port Link fastethernet 3 Down Broken switch config if faultrelay enable no faultrelay G Disable Fault Relay switch config no faultrelay Alarm Function SNTP Commands Set Commands Level Description Example sntp
51. eparing for Web Management 32 6 3 System LOGIN cleus a 33 6 4 System Information rrnnrnnnrnnnnrnvrnnnnnnerr 34 6 5 IP COnfiQuration c cceeeeeeeeeeeeeeeeeeeeaeens 35 6 6 DHCP S ENEk ans 37 6 6 1 System configuration ssrrrrnnnnvnnnnnnrnnn 38 6 6 2 Gen ES eens eet rere aa 39 6 6 3 Port and IP BindingS ceeeeeeeeeees 40 6 7 TPTP sr ae abi toml sian dte pence 41 6 7 1 Update Firmware ccccccssseeeeeeeenseeeeeees 41 6 7 2 Restore Configuration esrannnnnnnnnnnnnnre 42 6 7 3 Backup Configuration eeerrrrnrnnnnrrnrnnnnnre 43 6 8 System Event Log rrvrrrvrrvrvvvrvrvrvverevenenn 44 6 8 1 Syslog Configuration ccccccssseseeeeeeeees 44 6 8 2 System Event Log SMTP Configuration 46 6 8 3 System Event Log Event Configuration 48 6 9 Fault Relay Alarm ccscceeecesseseeeeeeeeees 50 6 10 SNTP Configuration eee 51 6 11 PS OCUPILY lt a 2cicccaseadscsaceccaceshenseeeacedinnccsscicr 55 6 12 User Authentication ararnnnnrnrrnrnnvnennn 57 6 13 POM Statisti S h 58 6 14 Port CGoMrolhususantsasrevsdidside 60 6 15 Port Trunk snau aa a e 62 6 15 1 Aggregator setting rrnnnnnnnnonnnnnnnnnnnnr 62 6 15 2 Aggregator Information ccccsseeeeees 64 6 15 3 State Activity hr 70 6 16 Por MIONO eena 72 6 17 Rate BMG iere iiinn 73 6 18 VLAN configuration asrrnnnrnrrrnnnrrrvrnnnnnnn 75 6 18 1
52. fig igmp enable lgmp query auto G Set IGMP query to switch config igmp query auto auto mode lgmp query force G Set IGMP query to switch config igmp query force force mode igmp unregister flooding G Set unregister stream switch config igmp unregister flooding flooding igmp unregister G Set unregister stream switch config igmp unregister blocking blocking flooding show igmp P Displays the details of switch show igmp configuration configuration an IGMP configuration no igmp G Disable IGMP switch config no igmp snooping function no igmp query G Disable IGMP query _ switch no igmp query Multicast Filtering Commands Set Commands multicast filtering IP Addr Level l Description Configure multicast filtering entry of interface Example Switch config interface fastEthernet 2 switch config if multicast filtering 228 1 1 1 no multicast filtering IP Addr Remove multicast filtering entry of interface Switch config interface fastEthernet 2 switch config if no multicast filtering 228 1 1 1 134 LLDP Commands Set Commands Level Description Example Ildp enable G Enable LLDP function switch config lldp enable Ildp interval Time sec G Configure LLDP interval switch config lldp interval 20 Mac Filter Table Commands Set Commands Level Description Example
53. for switch vlan vlan 8021q trunk 3 PortNumber 7 trunk link tag VLAN by trunk group trunk link tag 2 3 6 99 Tagged VID List al switch vlan vlan 8021q trunk 3 trunk link tag 3 20 vlan 8021q trunk V Assign a hybrid link for switch vlan vlan 8021q trunk 3 PortNumber ar hybrid link untag VLAN by trunk group hybrid link untag 4 tag 3 6 8 UntaggedVID or tag Tagged VID List switch vlan vlan 8021q trunk 3 hybrid link untag 5 tag 6 8 show vlan GroupI D V Show VLAN switch vlan show vlan 23 or airway information no vian group V Delete port base switch vlan no vlan group 2 GroupID group ID Spanning Tree Commands Set Commands Level Description Example spanning tree enable G Enable spanning tree switch config spanning tree enable spanning tree priority G Configure spanning _ switch config spanning tree 0 61440 tree priority parameter priority 32768 spanning tree max age G Use the spanning tree switch config spanning tree seconds max age global configuration command to change max age 15 130 the interval between messages the spanning tree receives from the root switch If a switch does not receive a bridge protocol data unit BPDU message from the root switch within this interval it recomputed the Spanning Tree Protocol STP topology spanning tree hello time seconds Use the spanning tree hello time global configurati
54. g for Web Management Before using the web management install the industrial switch on the network and make sure that any one of the PCs on the network can connect with the industrial switch through the web browser The industrial switch default value of IP subnet mask username and password are listed as below IP Address 192 168 16 1 Subnet Mask 255 255 255 0 Default Gateway 192 168 16 254 User Name root Password root 32 6 3 System Login 1 Launch the Internet Explorer on the PC 2 Key in http the IP address of the switch and then Press Enter File Edit View Favorites Tools Help Beck z gt v x a ON JO Search 9 7 Favorites Ol EN pp Address http 192 168 16 1 The login screen will appear right after Key in the user name and password The default user name and password are the same as root 5 Press Enter or click the OK button and then the home screen of the Web based management appears Connect to 192 168 16 1 E x index htm User name root v Password eece FTihowsssesevesssonsoesssesssentensscecsvegucoussousnesneed Login screen 33 6 4 System Information User can assign the system name description location and contact personnel to identify the switch The version table below is a read only field to show the basic information of the switch m System Name Assign the system name of the switch The maximum length is 64
55. he installation points attended to it 3 1 Installation Steps Unpack the Industrial switch Check if the DIN Rail is screwed on the Industrial switch or not If the DIN Rail is not screwed on the Industrial switch please refer to DIN Rail Mounting section for DIN Rail installation If users want to wall mount the Industrial switch please refer to Wall Mount Plate Mounting section for wall mount plate installation To hang the Industrial switch on the DIN Rail track or wall Power on the Industrial switch Please refer to the Wiring the Power Inputs section for knowing the information about how to wire the power The power LED on the Industrial switch will light up Please refer to the LED Indicators section for indication of LED lights 5 Prepare the twisted pair straight through Category 5 cable for Ethernet connection 6 Insert one side of RJ 45 cable category 5 into the Industrial switch Ethernet port NOTE 7 RJ 45 port and another side of RJ 45 cable category 5 to the network device s Ethernet port RJ 45 port ex Switch PC or Server The UTP port RJ 45 LED on the Industrial switch will light up when the cable is connected with the network device Please refer to the LED Indicators section for LED light indication Make sure that the connected network devices support MDI MDI X If it does not support use the crossover category 5 cable When all connections are set and LED lights all show in norm
56. he port E O P number and the column field of Work Ports changes automatically Port Trunk Aggregator Setting Aggregator Setting Aggregator Information State Activity System Priority fi Group ID Trunk 1 v Select Lacp Enable v Work Ports 2 Port 03 Port 05 lt lt Add Remove gt gt Apply Delete Help Notice The trunk function do not support GYRP and X Ring Switch 1 configuration interface 66 Port Trunk Aggregator Information Aggregator Setting I Aggregator Information State Activity Groupi Actor Partner Priority 1 1 MAC 001F3820820E 000F38FFF501 PortNo Key Priority Active PortNo Key Priority 3 513 1 selected 8 513 1 5 5131 selected 7 5131 Static Trunking Group Group Key 2 Port Member Port 01 Port 02 Aggregation Information of Switch 1 5 Click on the tab of Aggregator Information to check the trunked group information as the illustration shown above after the two switches configured 67 m Switch 2 configuration Port Trunk Aggregator Setting Aggregator Setting Aggregator Information State Activity System Priority fi Group ID Trunk 1 v Select Lacp Enable Rd Work Ports 2 lt lt Add Remove gt gt Apply Delete Help Notice The trunk function do not support GYRP and X Ring Switch 2 configuration interface Set System Priority of the trunk group The default is 1 Select a trunk group ID by pull down the drop dow
57. hen be available m Sender Type in an alias of the switch in complete email address format e g switchi01 123 com to identify where the e mail alert comes from m Authentication Having ticked this checkbox the mail account password and confirm password column fields will then show up Configure the email account and password for authentication when this switch logs in to the SMTP server m Mail Account Set up the email account e g johnadmin to receive the email alert It must be an existing email account on the mail server m Password Type in the password for the email account Confirm Password Reconfirm the password Rcpt e mail Address 1 6 You can also fill each of the column fields with up to 6 e mail accounts to receive the email alert m Click Apply to have the configuration take effect 46 System Event Log SMTP Configuration Syslog Configuration I SMTP Configuration Event Configuration E mail Alert Enable v SMTP Server IP Address 192 168 16 5 Sender switch101 123 com IV Authentication Mail Account fiohnadmin Password bess Confirm Password ess gt Rcpt e mail Address 1 supervisor 123 com Rcpt e mail Address 2 mm Rcpt e mail Address 3 0 Rcpt e mail Address 4 0 Rcpt e mail Address 5 0 Rcpt e mail Address 6 00 apply Help SMTP Configuration interface 47 6 8 3 System Event Log Event Configuration Having ticked the Syslog SMTP checkboxes
58. ig ring enable ring master G Enable ring master switch config ring master ring couplering G Enable couple ring switch config ring couplering ring dualhoming G Enable dual homing _ switch config ring dualhoming ring ringport G Configure 1st 2nd switch config ring ringport 7 8 1st Ring Port 2nd Ring Port Ring Port ring couplingport G Configure Coupling switch config ring couplingport Coupling Port Port 1 ring controlport G Configure Control Port switch config ring controlport 2 Control Port 145 ring homingport G Configure Dual switch config ring homingport 3 Dual Homing Port Homing Port show ring P Show the information switchtshow ring of Ring no ring G Disable Ring switch config no ring no ring master G Disable ring master switch config no ring master no ring couplering G Disable couple ring switch config no ring couplering no ring dualhoming G Disable dual homing switch config no ring dualhoming PoE Commands Set Commands Level Description Example ka P Enter POE configure switchitpoe mode system knockoff P Set PoE system Port switch poe system knockoff disabled Knockoff Disabled disabled disable Enable Disable system ac disconnect P Set PoE system AC switch poe system ac Enable Disable Disconnect disconnect disable system capacitive detect P Set PoE system switch poe system capacitive Enable Disabl
59. ing Port Trunk Aggregator Setting interface four ports are added to the left field with LACP enabled 63 6 15 2 Aggregator Information e LACP disabled Having set up the aggregator setting with LACP disabled you will see the local static trunk group information on the tab of Aggregator Information Port Trunk Aggregator Setting Aggregator Setting Aggregator Information State Activity System Priority 1 Group ID Trunk 2 v Select Lacp Work Ports 2 lt lt Add Remoye gt gt Apply Delete Help Notice The trunk function do not support GVRP and X Ring Assigning 2 ports to a trunk group with LACP disabled Port Trunk Aggregator Information Aggregator Setting I Aggregator Information State Activity Static Trunking Group Group Key 1 Port Member 12 Static Trunking Group information m Group Key This is a read only column field that displays the trunk group ID 64 m Port Member This is a read only column field that displays the members of this static trunk group 65 LACP enabled Having set up the aggregator setting with LACP enabled you will see the trunking group information between two switches on the tab of Aggregator Information m Switch 1 configuration Set System Priority of the trunk group The default is 1 Select a trunk group ID by pull down the drop down menu bar Enable LACP Include the member ports by clicking the Add button after selecting t
60. ing types RX TX and Both packet IP Security Login Security Bandwidth Control SNMP Trap Supports IGMP snooping v1 v2 256 multicast groups and IGMP query Supports 10 IP addresses that have permission to access the switch management and to prevent unauthorized intruder Supports IEEE802 1X Authentication RADIUS Support ingress packet filter and egress packet limit The egress rate control supports all of packet type and the limit rates are 100K 102400Kbps 10 100 100K 256000Kbps 1000 Ingress filter packet type combination rules are Broadcast Multicast Unknown Unicast packet Broadcast Multicast packet Broadcast packet only and all of packet The packet filter rate can be set from 100K 102400Kbps 10 100 100K 256000Kbps 1 000 Supports Flow Control for Full duplex and Back Pressure for Half duplex Supports System log record and remote system log server Supports SMTP Server and 6 e mail accounts for receiving event alert Provides one relay output for port breakdown power fail Alarm Relay current carry ability 1A DC24V 1 Cold start 2 Link up down 3 Ring topology changed 4 Authorization fail 5 PD disconnect trap PoE port event Firmware Update Configuration Upload Download Provides DHCP Client DHCP Server Port and IP Binding Provides DNS client feature and supports Primary and Secondary DNS server Supports SNTP to synchronize system clock in Internet Supports TFTP fi
61. ion m Power Failure Tick the check box to enable the function of lighting up the FAULT LED on the panel when power fails m Port Link Down Broken Tick the check box to enable the function of lighting up FAULT LED on the panel when Ports states are link down or broken Fault Relay Alarm Power Failure IV Power 1 M Power 2 Port Link Down Broken l Port 1 I Port 2 I Port 3 I Port 4 I Port 5 M Port 6 I Port7 Ports I Port 9 I Port 10 Apply Fault Relay Alarm interface 50 6 10 SNTP Configuration SNTP Simple Network Time Protocol is a simplified version of NTP which is an Internet protocol used to synchronize the clocks of computers to some time reference Because time usually just advances the time on different node stations will be different With the communicating programs running on those devices it would cause time to jump forward and back a non desirable effect Therefore the switch provides comprehensive mechanisms to access national time and frequency dissemination services organize the time synchronization subnet and the local clock in each participating subnet peer Daylight saving time DST is the convention of advancing clocks so that afternoons have more daylight and mornings have less Typically clocks are adjusted forward one hour near the start of spring and are adjusted backward in autumn m SNTP Client Enable disable SNTP function to get the time from the SNTP server m Daylight Saving Time This i
62. ion location lab snmp system contact G Set SNMP agent switch config snmp system System Contact system contact contact where snmp agent mode G Select the agent mode switch config snmp agent mode v1v2c v3 v1v2cv3 of SNMP viv2cv3 snmp community G Add SNMP community Switch config snmp community strings Community string strings public right rw right RO RW snmp server host G Configure SNMP switch config snmp server host IP address server host 192 168 1 50 community public community information and trap version v1 Community string community string remove trap version Switch config v1 v2c no snmp server host 192 168 1 50 snmpv3 context name G Configure the context switch config snmpv3 context Context Name name name Test snmpv3 user G Configure the Switch config snmpv3 user User Name group Group Name password Authentication Password Privacy userprofile for SNMPV3 agent Privacy password could be empty test01 group G1 password AuthPW PrivPW 136 Password snmpv3 access context name Context Name group Group Name security level No AuthNoPriv AuthNoP riv AuthPriv match rule Exact Prifix views Read View Name Write View Name Notify View Name Configure the access table of SNMPV3 agent switch config snmpv3 access context name Test group G1 security level AuthPriv match rule Exact views V1 V1 V1 s
63. is configured as a DHCP client The network DHCP server will assign the IP address to the switch and display it in this column The default IP is 192 168 16 1 or the user has to assign an IP address manually when DHCP Client is disabled m Subnet Mask Assign the subnet mask to the IP address If DHCP client function is disabled the user has to assign the subnet mask in this column field m Gateway Assign the network gateway for the switch If DHCP client function is disabled the user has to assign the gateway in this column field The default gateway is 192 168 16 254 DNS1 Assign the primary DNS IP address DNS2 Assign the secondary DNS IP address m And then click Apply 35 IP Configuration DHCP Client Disable v IP Address 192 168 16 1 Subnet Mask 255 255 255 0 Gateway 192 168 165 254 DNS1 0 0 0 0 DNS2 0 0 0 0 Apply Help IP configuration interface 36 6 6 DHCP Server DHCP is the abbreviation of Dynamic Host Configuration Protocol that is a protocol for assigning dynamic IP addresses to devices on a network With dynamic addressing a device can have a different IP address every time it connects to the network In some systems the device s IP address can even change while it is still connected DHCP also supports a mix of static and dynamic IP addresses Dynamic addressing simplifies network administration because the software keeps track of IP addresses rather than requiring an administrator to m
64. k has an untagged VID also called PVID After an untagged frame gets into the access port the switch will insert a four byte tag in the frame The contents of the last 12 bit of the tag is untagged VID When this frame is sent out through any of the access port of the same PVID the switch will remove the tag from the frame to recover it to what it was Those ports of the same untagged VID are regarded as the same VLAN group members Note Because the access port doesn t have an understanding of tagged frame the column field of Tagged VID is not available gt Trunk Link A segment which provides the link path for one or more VLAN 80 aware devices switches A Trunk Port connected to the trunk link has an understanding of tagged frame which is used for the communication among VLANs across switches Which frames of the specified VIDs will be forwarded depends on the values filled in the Tagged VID column field Please insert a comma between two VIDs Note 1 A trunk port doesn t insert tag into an untagged frame and therefore the untagged 2 VID column field is not available It s not necessary to type 1 in the tagged VID The trunk port will forward the frames of VLAN 17 The trunk port has to be connected to a trunk hybrid port of the other switch Both the tagged VID of the two ports have to be the same gt Hybrid Link A segment which consists of Access and Trunk links The hybrid port has both the feat
65. ket Packet Packet Packet Collision Dropped Packet Packet _ Port 01 100TX DownEnable 0 O 0 o 0 a ee o 0 Port 02 100TX DownEnable 0 o o o o o o o o Port 03 100TX_ DownEnable 0 o o o o o o o o Port 04 100TX DownEnable 0 o o o o o o o o Port 05 100TX DownEnable 0 o 0 0 0 o 0 0 0 Port 06 100TX DownEnable 0 O 0 0 o o 0 0_ o Port 07 100TX Up Enable 466 o 1132 0 o o o 13 1 Port 08 100TX DownEnable 0 o o0 o 0 o 0 o 0 Port 09 16TX mGBIC Down Enable 0 o 0 0 0 0 0 0 0 Port 10 1GTX mGBICDown Enable 0 ie 1 0 0 ie 0 o 0 _Clear Help Port Statistics interface 59 6 14 Port Control In Port control you can configure the settings of each port to control the connection parameters and the status of each port is listed beneath m Port Use the scroll bar and click on the port number to choose the port to be configured m State Current port state The port can be set to disable or enable mode If the port state is set as Disable it will not receive or transmit any packet m Negotiation Auto and Force Being set as Auto the speed and duplex mode are negotiated automatically When you set it as Force you have to set the speed and duplex mode manually m Speed It is available for selecting when the Negotiation column is set as Force When the Negotiation column is set as Auto this column is read only m Duplex It is available for selecting when the Negotiation c
66. ll Mac Addresses Multicast Filtering Port No Port 02 v 112244335566 STATIC 334455662211 STATIC FFESD2CC213F STATIC Dynamic Address Count 0 Static Address Count 3 Clear MAC Table All MAC Address interface 109 6 26 4 MAC Address Table Multicast Filtering Multicasts are similar to broadcasts they are sent to all end stations on a LAN or VLAN Multicast filtering is the function which end stations can receive the multicast traffic if the connected ports had been included in the specific multicast groups With multicast filtering network devices only forward multicast traffic to the ports that are connected to the registered end stations m IP Address Assign a multicast group IP address in the range of 224 0 0 0 239 255 255 255 m Member Ports Tick the check box beside the port number to include them as the member ports in the specific multicast group IP address m Click Add to append a new filter of multicast to the field or select the filter in the field and click Delete to remove it MAC Address Table Multicast Filtering Static MAC Addresses MAC Filtering All Mac Addresses I Multicast Filtering i 239 000 000 100 e 239 000 001 100 KE 239 000 002 100 hal IP Address 239 0 3 100 l Port o01 I Port o2 Port 03 IP Port 04 Member Ports I Port 05 I Port 06 M Port o7 M Port 08 I Port 09 I Port 10 Add Delete Help Multicast Filtering interface 110 6 27 Power over Ethe
67. mac address table static hwaddr MAC Configure MAC address table of interface static Switch config interface fastEthernet 2 switch config if mac address table static hwaddr 000012345678 mac address table filter G Configure MAC switch config mac address table hwaddr address table filter filter hwaddr 000012348678 MAC show mac address table P Show all MAC address switchtshow mac address table table show mac address table P Show static MAC switch show mac address table static address table static show mac address table P Show filter MAC Switch show mac address table filter address table filter no mac address table I Remove an entry of switch config interface static hwaddr MAG address table of fastEthernet 2 MAC interface static switch config if no mac address table static hwaddr 000012345678 no mac address table G Remove an entry of switch config jno mac address filter hwaddr MAC address table table filter hwaddr 000012348678 MAC filter no mac address table G Remove dynamic switch config no mac address entry of MAC address table 135 table SNMP Commands Set Commands Level Description Example snmp system name G Set SNMP agent switch config snmp system System Name system name name I2switch snmp system location G Set SNMP agent switch config snmp system System Location system locat
68. master The Ring master ring mode can be enabled by setting the Ring configuration interface Also the user can identify whether the switch is the ring master by checking the R M LED indicator on the panel of the switch The system also supports the Couple Ring that can connect 2 or more Ring group for the redundant backup function Dual Homing function that can prevent connection lose between Ring group and upper level core switch m Enable Ring To enable the Ring function tick the checkbox beside the Enable Ring string label If this checkbox is not ticked all the ring functions are unavailable gt Enable Ring Master Tick the checkbox to enable this switch to be the ring master gt 18 amp 2 Ring Ports Pull down the selection menu to assign the ports as the member ports 1 Ring Port is the working port and 2 Ring Port is the backup port When 1 Ring Port fails the system will automatically upgrade the 2 Ring Port to be the working port m Enable Couple Ring To enable the couple ring function tick the checkbox beside 99 the Enable Couple Ring string label gt Couple Port Assign the member port which is connected to the other ring group gt Control Port When the Enable Couple Ring checkbox is ticked you have to assign the control port to form a couple ring group between the two Rings m Enable Dual Homing Set up one of the ports on the switch to be the Dual Homing port For a switch there is only one Dual H
69. n menu bar Enable LACP Include the member ports by clicking the Add button after selecting the port 9 N number and the column field of Work Ports changes automatically Port Trunk Aggregator Information Aggregator Setting I Aggregator Information State Activity Group1 Actor Partner Priority 1 1 MAC O00F38SFFFSOL 001F3820820E PortNo Key Priority Active PortNo Key Priority 7 513 1 selected 5 513 1 8 513 1 selected 3 513 1 Aggregation Information of Switch 2 68 5 Click on the tab of Aggregator Information to check the trunked group information as the illustration shown above after the two switches configured 69 6 15 3 State Activity Having set up the LACP aggregator on the tab of Aggregator Setting you can configure the state activity for the members of the LACP trunk group You can tick or cancel the checkbox beside the state label When you remove the tick mark of the port and click Apply the port state activity will change to Passive m Active The port automatically sends LACP protocol packets m Passive The port does not automatically send LACP protocol packets and responds only if it receives LACP protocol packets from the opposite device NOTE A link having two passive LACP nodes will not perform dynamic LACP trunk because both ports are waiting for an LACP protocol packet from the opposite device Port Trunk State Activity Aggregator Setting Aggregator Information I State Activity
70. ng port NOTE In Dual Homing application architecture the upper level switches need to enable the Rapid Spanning Tree protocol Ethernet Switch Rapid Spanning Tree Protocol Ethernet Switch Hot Standby Link Ring Industrial Industrial Backup Path Switch Switch Dual Homing x N N backup port Industrial Industrial Switch Ring Group A Industrial Ring Group B Switch Switch Industrial J Switch J N S w Saa _ ae est Ring Backup Path Industrial Industrial Switch Switch 26 Chapter 5 Console Management 5 1 Connecting to the Console Port The supplied cable which one end is RS 232 connector and the other end is RJ 45 connector Attach the end of RS 232 connector to PC or terminal and the other end of RJ 45 connector to the console port of the switch The connected terminal or PC must support the terminal emulation program EV ae EN Im co C E jih H MI Ca To the console port of the Industrial Switch To PC or Terminal 5 2 Pin Assignment 5 3 Login in the Console Interface When the connection between Switch and PC is ready turn on the PC and run a terminal emulation program or Hyper Terminal and configure its communication parameters to match the following default characteristics of the console port Baud Rate 9600 bps Data Bits 8 Parity none Stop Bit 1 Flow control None COM2 Properties x Port Settings Data bits fe v e o
71. nmpv3 mibview view Configure the mibview switch config snmpv3 mibview View Name table of SNMPV3 view V1 type Excluded sub oid type agent 1 3 6 1 Excluded Included sub oid OID show snmp Show SNMP switch show snmp configuration no snmp community strings Community Remove the specified community Switch config no snmp community strings public no snmp server host Host address Remove the SNMP server host Switch config no snmp server host 192 168 1 50 no snmpv3 user User Name no snmpv3 access context name Context Name group Remove specified user of SNMPv3 agent Remove specified access table of SNMPV3 agent Switch config no snmpv3 user Test Switch config no snmpv3 access context name Test group G1 security level AuthPr iv match rule Exact views V1 V1 137 Group Name security level No AuthNoPriv AuthNoP riv AuthPriv match rule Exact Prifix views Read View Name Write View Name Notify View Name V1 no snmpv3 mibview view View Name type Excluded Included sub oid OID Remove specified mibview table of SNMPV3 agent Port Mirroring Commands Set Switch config no snmpv3 mibview view V1 type Excluded sub oid 1 3 6 1 Commands Level Description Example monitor RX TX Both Configure source port of monitor function switch config interface fastE
72. o clear all the current event logs m Make sure the selected mode is correct and click Apply to have the setting take effect 44 System Event Log Syslog Configuration SMTP Configuration 1 Event Configuration Syslog Client Mode Both Syslog Server IP Address 192 168 16 200 opty 3 Jan 1 00 02 53 System Log Server IP 192 168 16 200 2 Jan 1 00 02 53 System Log Enable 1 Jan 1 00 02 18 Clear System Log Table Reload clear Help Syslog Configuration interface 45 6 8 2 System Event Log SMTP Configuration Simple Mail Transfer Protocol SMTP is the standard for email transmissions across the network You can configure the SMTP server IP mail subject sender mail account password and the recipient email addresses which the e mail alert will send to There are also five types of event Device Cold Start Authentication Failure Ring Topology Change and Port Event available to be issued as the e mail alert Besides this function provides the authentication mechanism including an authentication step through which the client effectively logs in to the SMTP server during the process of sending e mail alert m Email Alert With this function being enabled the user is allowed to configure the detail settings for sending the e mail alert to the SMTP server when the events occur m SMTP Server IP Assign the mail server IP address when Email Alert is enabled this function will t
73. o systemlog G Disable systemlog switch config no systemlog functon smtp enable G Enable SMTP function switch config smtp enable smtp serverip G Configure SMTP switch config smtp serverip IP address server IP 192 168 1 5 smtp sender G Configure sender of switch config smtp snder sendername mail aaa bbb com smtp authentication G Enable SMTP switch config smtp authentication authentication smtp account G Configure switch config smtp account account authentication account John smtp password G Configure switch config smtp password password authentication 1234 password smip rcptemail G Configure Rcpt e mail switch config smtp rcptemail 1 Index Email address Address Alert Qtest com show smtp P Show the information switch show smtp of SMTP no smtp G Disable SMTP switch config no smtp function 142 event device cold start Systemlog SMTP Both Set cold start event type switch config event device cold start both event authentication failure Systemlog SMTP Both Set Authentication failure event type switch config event authentication failure both event ring topology change Systemlog SMTP Both Set Ring topology changed event type switch config event ring topology change both event systemlog Set port event for switch config interface Link UP Link system log fastethernet 3 Down Both switch config if event systemlog both event smtp Set port ev
74. olumn is set as Force When the Negotiation column is set as Auto this column is read only m Flow Control Whether or not the receiving node sends feedback to the sending node is determined by this item When enabled once the device exceeds the input data rate of another device the receiving device will send a PAUSE frame which halts the transmission of the sender for a specified period of time When disabled the receiving device will drop the packet if too much to process m Security When the Security selection is set as On any access from the device which connects to this port will be blocked unless the MAC address of the device is included in the static MAC address table See the segment of MAC Address Table Static MAC Addresses m Click Apply to have the configuration take effect 60 State Port Control Enable v Auto v 100 sj Fui z Enable v Off v Apply Help Speed Duplex Flow Control Group ID Type State Negotiation Config Actual Config Actual Security Port 01 N A 100TX Down Enable Auto 100 Full N A Enable N A OFF Port 02 N A 100TX Down Enable Auto 100 Full N A EnableN A OFF Port 03 N A 100TX Down Enable Auto 100 Full N A Enable N A OFF Port 04N A 100TX DowneEnableAuto 100FullN A Enable N A OFF Port 05 N A 100TX Down Enable Auto 100 Full N A Enable N A OFF Port 06 N A 100TX Down Enable Auto 100 Full N A Enable N A OFF Port 07 N A 100TX Up
75. oming port Dual Homing function works only when the Ring function enabled m And then click Apply to have the configuration take effect Ring Configuration MV Enable Ring IV Enable Ring Master 1st Ring Port Port 01 FORWARDING 2nd Ring Port Port 02 x LINKDOWN Enable Couple Ring Couple Port Port 03 LINKDOWN Control Port Port 04 LINKDOWN I Enable Dual Homing Homing Port Port 05 LINKDOWN This switch is Ring Master Apply Help Ring Interface NOTE 1 When the Ring function enabled the user must disable the RSTP The Ring function and RSTP function cannot exist on a switch at the same time 2 Remember to execute the Save Configuration action otherwise the new configuration will lose when switch powers off 100 6 24 LLDP Configuration Link Layer Discovery Protocol LLDP is defined in the IEEE 802 1AB it is an emerging standard which provides a solution for the configuration issues caused by expanding LANs LLDP specifically defines a standard method for Ethernet network devices such as switches routers and wireless LAN access points to advertise information about themselves to other nodes on the network and store the information they discover LLDP runs on all 802 media The protocol runs over the data link layer only allowing two systems running different network layer protocols to learn about each other m LLDP Protocol Pull down the selection menu to disable or enable LLDP functi
76. on VLAN database Interface configuration Enter the configure command switch while in config privileged EXEC mode Enter the vlan database switch vlan command while in privileged EXEC mode Enter the interface of fast Ethernet command with a switch specific interface while in global configuration mode config if To exit to privileged EXEC mode enter exit or end To exit to user EXEC mode enter exit To exit to global configuratio n mode enter exit To exit to privileged EXEC mode enter exit or end 31 Use this mode to configure those parameters that are going to be applied to your switch Use this mode to configure VLAN specific parameters Use this mode to configure parameters for the switch and Ethernet ports Chapter 6 Web Based Management This section introduces the configuration and functions of the Web Based management 6 1 About Web based Management There is an embedded HTML web site residing in flash memory on CPU board of the switch which offers advanced management features and allows users to manage the switch from anywhere on the network through a standard browser such as Microsoft Internet Explorer The Web Based Management supports Internet Explorer 6 0 or later version And it is applied for Java Applets for reducing network bandwidth consumption enhance access speed and present an easy viewing screen 6 2 Preparin
77. on m LLDP Interval Set the interval of advertising the switch s information to other nodes m Click Apply LLDP Configuration LLDP Protocol Disable v LLDP Interval 30 sec Apply Help LLDP Interface 101 6 25 Security 802 1X Radius Configuration 802 1x is an IEEE authentication specification which prevents the client from accessing a wireless access point or wired switch until it provides authority like the user name and password that are verified by an authentication server such as RADIUS server 6 25 1 System Configuration After enabling the IEEE 802 1X function you can configure the parameters of this function IEEE 802 1x Protocol Enable or disable 802 1x protocol Radius Server IP Assign the RADIUS Server IP address Server Port Set the UDP destination port for authentication requests to the specified RADIUS Server Accounting Port Set the UDP destination port for accounting requests to the specified RADIUS Server Shared Key Set an encryption key for using during authentication sessions with the specified RADIUS server This key must match the encryption key used on the RADIUS Server NAS Identifier Set the identifier for the RADIUS client Click Apply 102 802 1x Radius System Configuration System Configuration Port Configuration Misc Configuration 802 1x Protocol Enable v Radius Server IP 192 168 16 237 Server Port figi2 _ Accounting Port 1813 Shar
78. on command to specify the interval between hello bridge protocol data units BPDUs switch config spanning tree hello time 3 spanning tree forward time seconds Use the spanning tree forward time global configuration command to set the forwarding time for the specified spanning tree instances The forwarding time determines how long each of the listening and learning states last before the port begins switch config spanning tree forward time 20 131 forwarding stp path cost 1 200000000 Use the spanning tree cost interface configuration command to set the path cost for Spanning Tree Protocol STP calculations In the event of a loop spanning tree considers the path cost when selecting an interface to place into the forwarding state switch config interface fastEthernet 2 switch config if stp path cost 20 stp path priority Port Priority Use the spanning tree port priority interface configuration command to configure a port priority that is used when two switches tie for position as the root switch switch config interface fastEthernet 2 switch config if stp path priority 128 stp admin p2p Auto True False Admin P2P of STP priority on this interface switch config interface fastEthernet 2 switch config if stp admin p2p Auto stp admin edge True False Admin Edge of STP priority on this interface
79. onizes feature 53 in SNTP client mode You can enable the feature when filling the interval range from 64s 1024s m Click Apply to have the configuration take effect SNTP Configuration SNTP Client Disable Daylight Saving Time Disable vi UTC Timezone GMT Greenwich Mean Time Dublin Edinburgh Lisbon London vi SNTP Server URL 0 0 0 0 Switch Timer Daylight Saving Period 20040101 00 0 20040101 00 0 Daylight Saving Offset mins lo Synchronization Interval secs 0 Apply SNTP Configuration interface 54 6 11 IP Security IP security function allows the user to assign 10 specific IP addresses that have permission to manage the switch through the http and telnet services for the securing switch management The purpose of giving the limited IP addresses permission is to allow only the authorized personnel device can do the management task on the switch m IP Security Mode Having set this selection item in the Enable mode the Enable HTTP Server Enable Telnet Server checkboxes and the ten security IP column fields will then be available If not those items will appear in grey m Enable HTTP Server Having ticked this checkbox the devices whose IP addresses match any one of the ten IP addresses in the Security IP1 IP10 table will be given the permission to access this switch via HTTP service m Enable Telnet Server Having ticked this checkbox the devices whose IP addresses match any one of the ten IP addresse
80. ort based GroupID grpname test grpid 2 port 2 3 4 port PortNumbers show vlan GroupID V Show VLAN switch vlan show vlan 23 information show vlan no vlan group V Delete port base switch vlan no vlan group 2 GroupID group ID IEEE 802 1Q VLAN vlan 8021q name V Change the name of _ switch vlan vlan 8021q name ee VLAN group ifthe test vid 22 VID group didn t exist this command can t be applied vlan 8021q port V Assign aaccess link switch vlan vlan 8021q port 3 likes es ag for VLAN by port if the access link untag 33 UntaggedVID port belong to a trunk group this command can t be applied vlan 8021q port V Assign a trunk link for switch vlan vlan 8021q port 3 dj VLAN by port if the Itrunk link tag 2 3 6 99 TaggedVID List port belong to a trunk jor group this command _ switch vlan vlan 8021q port 3 can t be applied trunk link tag 3 20 vlan 8021q port V Assign a hybrid link for switch vlan vlan 8021q port 3 PortNumber 129 hybrid link untag UntaggedVID tag TaggedVID List VLAN by port if the port belong to a trunk group this command can t be applied hybrid link untag 4 tag 3 6 8 or switch vlan vlan 8021q port 3 hybrid link untag 5 tag 6 8 vlan 8021q trunk V Assign aaccess link switch vlan vlan 8021q trunk 3 ret for VLAN by trunk access link untag 33 access link untag UntaggedVID group vlan 8021q trunk V Assign a trunk link
81. otocol IGMP Query enable or disable the IGMP query function The IGMP query information will be displayed in IGMP status section m Click Apply 97 IGMP Configuration IP Address VLAN ID Member Port 239 255 255 253 ok Ak 224 000 000 251 i EEEE EE 239 255 255 250 1 Hk du IGMP Snooping Enable v IGMP Query Enable v Apply Help IGMP Configuration interface 98 6 23 Ring Ring provides a faster redundant recovery than Spanning Tree topology The action is similar to STP or RSTP but the algoritnms between them are not the same In the Ring topology every switch should be enabled with Ring function and two ports should be assigned as the member ports in the ring Only one switch in the Ring group would be set as the master switch that one of its two member ports would be blocked called backup port and another port is called working port Other switches in the Ring group are called working switches and their two member ports are called working ports When the failure of network connection occurs the backup port of the master switch Ring Master will automatically become a working port to recover from the failure The switch supports the function and interface for setting the switch as the ring master or not The ring master can negotiate and place command to other switches in the Ring group If there are 2 or more switches in master mode the software will select the switch with lowest MAC address number as the ring
82. oup is a static trunk group The advantage of having the LACP disabled is that a port joins the trunk group without any handshaking with its member ports but member ports won t know that they should be aggregated together to form a logic trunk group m Work ports This column field allows the user to type in the total number of active port up to four With LACP static trunk group e g you assign four ports to be the members of a trunk group whose work ports column field is set as two the exceed ports are standby redundant ports and can be aggregated if working ports fail If itis a static trunk group non LACP the number of work ports must equal the total number of group member ports m Select the ports to join the trunk group The system allows a maximum of four 62 ports to be aggregated in a trunk group Click Add and the ports focused in the right side will be shifted to the left side To remove unwanted ports select the ports and click Remove m When LACP enabled you can configure LACP Active Passive status for each port on the State Activity tab m Click Apply m Use Delete to delete Trunk Group Select the Group ID and click Delete Port Trunk Aggregator Setting Aggregator Setting Aggregator Information I State Activity System Priority fi Group ID Trunk 1 v Select Lacp Enable v Work Ports 4 Remove gt gt Apply Delete Help Notice The trunk function do not support GVRP and X R
83. ps or change notices from network devices implementing SNMP 6 20 1 System Configuration Community Strings Here you can define the new community string set and remove the unwanted community string gt String Fill the name string gt RO Read only Enables requests accompanied by this community string to display MIB object information gt RW Read write Enables requests accompanied by this community string to display MIB object information and to set MIB objects gt Click Add gt To remove the community string select the community string that you defined before and click Remove The strings of Public RO and Private RW are default strings You can remove them but after resetting the switch to default the two strings Show up again m Agent Mode Select the SNMP version that you want to use it And then click Change to switch to the selected SNMP version mode 88 SNMP System Configuration System Configuration Trap Configuration I SNMPyv3 Configuration Community Strings Current Strings New Community String Remove Add public RO String PString3 private RW PStringi RO GRO CRW PString2 RI Agent Mode Current Mode SNMP V1 V2C only SNMP v1 2c only C SNMP V3 only C SNMP VIN2CN3 Change Help SNMP System Configuration interface 89 6 20 2 Trap Configuration A trap manager is a management station that receives the trap messages generated by the switch If no tr
84. r1 Introduction essesessseeessererssrrorssner T 1 1 Hardware Features rrrnnennonnnnennonrnnnnnnnnen 1 1 2 Software Features rrrrrnrrvrvrvrrrrrnnnnnnnnrrrnnn 4 1 3 Package Contents ccccccceeesesesseneeeseeees 7 Chapter2 Hardware Description rvvrvrvvrvvvvenr 8 2 1 Physical Dimension cccccesseeeeeeeeeeeeees 8 2 2 Front at eee eee 8 2 3 Bottom VIEW ee 9 2 4 LED IAGICAIOFS eldre 10 Chapter3 Hardware Installation 000 12 3 1 Installation Steps rrrrrnrnonvnvnrnrnrnrnrnrnrnrnn 12 3 2 DIN Rail Mounting rorrrrrrrrrrrnnnrnnnnnnnrnnnn 13 3 3 Wall Mount Plate Mounting 15 3 4 Wiring the Power Inputs ee 16 3 5 Wiring the Fault Alarm Contact 17 3 6 OE 0 ao EE aden Gad 18 Chapter4 Network Application cce 22 4 1 Ring AppliGaliOnisicss Assn os Earitetueccnen dieu 24 4 2 Coupling Ring Application cee 25 4 3 Dual Homing Application n 26 Chapter5 Console Management 0000 27 5 1 Connecting to the Console Port 27 5 2 Pin Assignment rarrrrnennnnnnnnrnnvrnnnrnnnnnrennn 27 5 3 Login in the Console Interface 28 5 4 CLI Management ccccccssseseeeeeeeeseeeeees 30 5 5 Commands Level cc cceeeeeeeeeeeeeeeeees 30 Chapter6 Web Based Managemenrt 32 6 1 About Web based Managemert 32 6 2 Pr
85. rage 40 C 85 C Temperature IP 30 72mm W x 105mm D x 152mm Installation DIN rail and wall mount ear FCC Class A CE EN61000 4 2 CE EN61000 4 3 CE EN 61000 4 4 CE EN61000 4 5 CE EN61000 4 6 CE EN61000 4 8 CE EN61000 4 11 CE EN61000 4 12 CE EN61000 6 2 CE EN61000 6 4 Safety UL cUL CE EN60950 1 IEC60068 2 32 Free fall IEC60068 2 27 Shock Stability Testing IEC60068 2 6 Vibration 1 2 Software Features Management Port Trunk with LACP Quality of Service Class of Service Port Security SNMP v1 v2c v3 Web Telnet CLI RFC 1215 Trap RFC1213 MIBII RFC 1157 SNMP MIB RFC 1493 Bridge MIB RFC 2674 VLAN MIB RFC 1643 RFC 1757 RSTP MIB Private MIB LLDP MIB Port Based VLAN IEEE 802 1Q Tag VLAN 256 entries VLAN ID Up to 4K VLAN ID can be assigned from 1 to 4094 GVRP 256 Groups LAGP Port Trunk 4 Trunk groups Maximum 4 trunk members Supports LLDP allowing switch to advertise its identification and capability on the LAN IEEE802 1d spanning tree IEEE802 1w rapid spanning tree Supports Ring Dual Homing and Couple Ring Topology Provides redundant backup feature and the recovery time below 20ms The quality of service determined by port Tag and IPv4 Type of service IPv4 Different Service Supports IEEE802 1p class of service per port provides 4 priority queues Supports 100 entries of MAC address for static MAC and another 100 for MAC filter Supports 3 mirror
86. rity to each port Rapid spanning tree will have the port with the higher priority in forwarding state and block other ports to make certain that there is no loop in the LAN Select the port in the port column field Path Cost The cost of the path to the other bridge from this transmitting bridge at the specified port Enter a number 1 through 200 000 000 m Priority Decide which port should be blocked by setting its priority as the lowest Enter a number between 0 and 240 The value of priority must be the multiple of 16 m Admin P2P The rapid state transitions possible within RSTP are dependent upon whether the port concerned can only be connected to exactly another bridge i e it is served by a point to point LAN segment or can be connected to two or more bridges i e it is served by a shared medium LAN segment This function allows the P2P status of the link to be manipulated administratively True means the port is regarded as a point to point link False means the port is regarded as a shared link Auto means the link type is determined by the auto negotiation between the two peers m Admin Edge The port directly connected to end stations won t create bridging loop in the network To configure the port as an edge port set the port to True status m Admin Non Stp The port includes the STP mathematic calculation True is not including STP mathematic calculation False is including the STP mathematic calculation m Click Appl
87. rmware update TFTP backup and restore Supports binary format configuration file for system quick installation Each port allows importing 128bits of alphabetic string of word on SNMP and CLI interface 1 3 Package Contents Please refer to the package content list below to verify them against the checklist m 8 10 100TX 2 10 100 1000T Mini GBIC Combo with 8 PoE Injectors Managed Industrial Switch x 1 User manual x 1 Pluggable Terminal Block x 1 Mounting plate x 2 RJ 45 to DB9 Female cable x 1 Compare the contents of the industrial switch with the standard checklist above If any item is damaged or missing please contact the local dealer for service Chapter 2 Hardware Description In this paragraph it will describe the Industrial switch s hardware spec port cabling information and wiring installation 2 1 Physical Dimension 8 10 100TX w Ring Managed Industrial Switch dimension W x D x H is 72mm x 105mm x 152mm 2 2 Front Panel The Front Panel of the 8 10 100TX w Ring Managed Industrial Switch is shown as below 3 8 S 3 3 S o P10 P9 Link Active JOL daS 0001 00 dd LOOL 1000 9600 N 8 1 P2 10 100TX Front Panel of the industrial switch 2 3 Bottom View The bottom panel of the 8 10 100TX w Ring Managed Industrial Switch has one terminal block connector of two DC power inputs and one fault alarm PWR2 FAULT PWR r 1A 24V 1 V2 V2 V1 V14 DC
88. rnet This segment shows the Power over Ethernet function Power over Ethernet Actual Power Consumption 0 W Main Supply Voltage 480 dv Firmware Version 2 03 Port Knockoff Disabled V AC Disconnect Vv Capacitive Detection Apply Port Enable Power Limit From L Priori Power Limit Current Voltage Power Determined state Classfication egacy Priority rm Mode mA Vv mw Class 1 M nm Pr tow 15400 Detecting 0 0 0 0 0 15 4W 2 M PM low px 15400 Detecting 0 0 0 o 0 15 4W 3 M PM Low 15400 Detecting 0 0 0 0 0 15 4W 4 O low 15400 Detecting 0 0 0 0 0 15 4W 5 M nm PM tow 15400 Detecting 0 0 0 0 0 15 4W 6 pm Oo O flow 15400 Null o 0 0 0 0 15 4W 7 M Oo O flow 15400 Detecting 0 0 0 0 0 15 4W 8 M Oo C Low 15400 Detecting 0 0 0 0 0 15 4W Apply PoE Status m Actual Power Consumption This column shows the real time total power consumption m Main Supply Voltage This column shows the output voltage of the system for PoE ports Firmware Version This column shows the PoE chip s firmware version Port Knockoff Disabled Power Management state where one or more PDs have been powered down so that a higher priority PD may be powered up and yet not exceed the maximum total power available for PDs m AC Disconnect Tick this checkbox to monitor the AC impedance on the port terminals and removes power when the impedance rises above a certain value for a certain period for details see the IEEE 802 3af specific
89. rt Statistics The following chart provides the current statistic information which displays the real time packet transfer status for each port The user might use the information to plan and implement the network or check and find the problem when the collision or heavy traffic occurs m Port The port number m Type Displays the current speed of connection to the port m Link The status of linking Up or Down m State It s set by Port Control When the state is disabled the port will not transmit or receive any packet Tx Good Packet The counts of transmitting good packets via this port Tx Bad Packet The counts of transmitting bad packets including undersize less than 64 octets oversize CRC Align errors fragments and jabbers packets via this port Rx Good Packet The counts of receiving good packets via this port Rx Bad Packet The counts of receiving good packets including undersize less than 64 octets oversize CRC error fragments and jabbers via this port Tx Abort Packet The aborted packet while transmitting Packet Collision The counts of collision packet Packet Dropped The counts of dropped packet Rx Beast Packet The counts of broadcast packet Rx Mcast Packet The counts of multicast packet Click Clear button to clean all counts 58 Port Statistics must ne Link State TX Good Tx reg Bad Tx Abort Packet Packet Mcast EE bial ms 5 Packet Pac
90. s O gt Egress Enter the port effective egress rate The default value is 0 m And then click Apply to apply the settings 74 6 18 VLAN configuration A Virtual LAN VLAN is a logical network grouping that limits the broadcast domain which would allow you to isolate network traffic so only the members of the same VLAN will receive traffic from the ones of the same VLAN Basically creating a VLAN on a switch is logically equivalent of reconnecting a group of network devices to another Layer 2 switch However all the network devices are still plugged into the same switch physically This switch supports Port based and 802 1Q tagged based VLAN The default configuration of VLAN operation mode is Disable VLAN Configuration VLAN Operation Mode Disable v I Enable GVRP Protocol Management Vlan ID Ic Apply VLAN NOT ENABLE VLAN Configuration interface 75 6 18 1 Port based VLAN A port based VLAN basically consists of its members ports which means the VLAN is created by grouping the selected ports This method provides the convenience for users to configure a simple VLAN easily without complicated steps Packets can go among only members of the same VLAN group Note all unselected ports are treated as belonging to another single VLAN If the port based VLAN enabled the VLAN tagging is ignored The port based VLAN function allows the user to create separate VLANs to limit the unnecessary pa
91. s 192 168 16 100 High IP Address 192 168 16 200 Subnet Mask 255 255 255 0 Gateway 192 168 16 254 DNS 0 0 0 0 Lease Time sec 86400 Apply Help DHCP Server Configuration interface 38 6 6 2 Client Entries When the DHCP server function is enabled the system will collect the DHCP client information including the assigned IP address the MAC address of the client device the IP assigning type status and lease time DHCP Server Client Entries System Configuration I Client Entries Port and IP Binding IP addr Client ID Type Status Lease 192 168 16 10100 99 88 77 66 55 dynamic DHCP 86383 192 168 16 100 00 0F 38 FF F5 01 dynamic DHCP 85762 DHCP Client Entries interface 39 6 6 3 Port and IP Bindings Assign the dynamic IP address bound with the port to the connected client The user is allowed to fill each port column with one particular IP address When the device is connecting to the port and asks for IP assigning the system will assign the IP address bound with the port DHCP Server Port and IP Binding System Configuration Client Entries I Port and IP Binding Port IP Port 01 0 0 0 0 Port 02 0 0 0 0 Port 03 0 0 0 0 Port 04 0 0 0 0 Port 05 0 0 0 0 Port 06 0 0 0 0 Port 07 0 0 0 0 Port 08 0 0 0 0 Port 09 0 0 0 0 Port 10 0 0 0 0 Apply Help Port and IP Bindings interface 40 6 7 TFTP It provides the functions allowing the user to update the switch firmware via the Trivi
92. s in the Security IP1 IP10 table will be given the permission to access this switch via telnet service m Security IP 1 10 The system allows the user to assign up to 10 specific IP addresses for access security Only these 10 IP addresses can access and manage the switch through the HTTP Telnet service once IP Security Mode is enabled m And then click Apply to have the configuration take effect NOTE Remember to execute the Save Configuration action otherwise the new configuration will lose when the switch powers off 55 IP Security IP Security Mode Enable v IV Enable HTTP Server IV Enable Telnet Server Security IP1 192 168 16 11 Security IP2 192 168 16 21 Security IP3 192 168 16 31 Security IP4 192 168 16 41 Security IP5 192 168 16 110 Security IP6 192 168 16 120 Security IP7 192 168 16 130 Security IP8 192 168 16 140 Security IP9 192 168 16 210 Security IP10 192 168 16 220 Apply Help IP Security interface 56 6 12 User Authentication Change web management login user name and password for the management security issue User name Type in the new user name The default is root Password Type in the new password The default is root Confirm password Re type the new password m And then click Apply User Authentication User Name root New Password esso Confirm Password eseo Apply Help User Authentication interface 57 6 13 Po
93. s used as a control switch to enable disable daylight saving period and daylight saving offset Users can configure Daylight Saving Period and Daylight Saving Offset in a certain period time and offset time while there is no need to enable daylight saving function Afterwards users can just set this item as enable without assign Daylight Saving Period and Daylight Saving Offset again m UTC Timezone Universal Time Coordinated Set the switch location time zone The following table lists the different location time zone for your reference Local Time Zone Conversion from UTC Time at 12 00 UTC oo Atlantic Standard 4 hours EDT Eastern Daylight 51 EST Eastern Standard 5 hours 7 am CDT Central Daylight CST Central Standard l l 6 hours 6 am MDT Mountain Daylight MST Mountain Standard 7 hours 5 am PDT Pacific Daylight PST Pacific Standard 8 hours 4 am ADT Alaskan Daylight HAW Hawaiian 10 hours 2 am Standard CET Central European FWT French Winter MET Middle European 1 hour 1 pm MEWT Middle European Winter SWT Swedish Winter EET Eastern 2 hours 2 pm European USSR Zone 1 BT Baghdad USSR 3 hours 3 pm Zone 2 WAST West Australian 7 hours 7 pm Standard 52 CCT China Coast 8 hours USSR Zone 7 JST Japan Standard 9 hours USSR Zone 8 EAST East Australian Standard GST Guam Standard USSR Zone 9 10 hours IDLE International Date Lin
94. t light on when the power cord is plugged in you may have a problem with power cord Then check for loose power connections power losses or surges at power outlet If you still cannot resolve the problem contact the local dealer for assistance m If the LED indicators are normal and the connected cables are correct but the packets still cannot be transmitted Please check the user system s Ethernet devices configuration or status 116 Appendix A RJ 45 Pin Assignment RJ 45 Pin Assignments The UTP STP ports will automatically sense for Fast Ethernet 10Base T 100Base TX connections or Gigabit Ethernet 10Base T 100Base TX 1000Base T connections Auto MDI MDIX means that the switch can connect to another switch or workstation without changing straight through or crossover cabling See the figures below for straight through and crossover cable schematic m 10 100BASE TX Pin outs With10 100BASE TX cable pins 1 and 2 are used for transmitting data and pins 3 and 6 for receiving data m RJ 45 Pin Assignments Pin Number Assignment 1 TX 2 Tx 3 Rx 6 Rx NOTE and signs represent the polarity of the wires that make up each wire pair The table below shows the 10 100BASE TX MDI and MDI X port pin outs Pin Number MDI X Signal Name MDI Signal Name 1 Receive Data plus RD Transmit Data plus TD 2 Receive Data minus RD Transmit Da
95. ta minus TD 3 Transmit Data plus TD Receive Data plus RD 6 Transmit Data minus TD Receive Data minus RD 117 m 10 100Base TX Cable Schematic The following two figures show the 10 100Base TX cable schematic Switch Router or PC 3 TD s3 RD 6 TD gt 6 RD 1 RD lt TD 2 RkRD 2 TD Straight through cable schematic Switch Switch 3 TD 3 TD 6 TD 6 TD 1 RD 1 RD 2 RD 2 RD Cross over cable schematic m 10 100 1000Base TX Pin outs The following figure shows the 10 100 1000 Ethernet RJ 45 pin outs Label 12348 678 a 3 Tpi TPO TP TPP TP2 TP TPZ TPJ Sa a mh A amp U f m 10 100 1000Base TX Cable Schematic 118 Switch Router or PC 1 TPO e TPH 2 TPO 4 2 TPI 3 TP1 lt 3 TPO 6 TPI gt 6 TPO 4 TP3 TP2 lt _ 5 TP3 TP3 t F TP TP3 4 TPA y M b Straight through cables schematic Switch Switch 1 TPO 1 TPO 2 TPO 2 TPO TP1 TPi amp TP1 amp TP1 TP2 4 TP2 5 TPZ 5 TPZ 7 TP3 7 TP3 TP3 TP3 Cross over cables schematic 119 RJ 45 Pin Assignment of PoE With 100BASE TX 10BASE T cable pins 1 and 2 are used for transmitting data and pins 3 and 6 for receiving data pins 4 5 7 and 8 are used for power supplying m Pin out of Cisco non 802 3af standard PD Pin Signal RX RX TX VCC VCC TX VCC VCC ON Oo
96. thernet 2 switch config if monitor RX monitor rx Port ID Set RX destination port of monitor function switch config monitor rx 2 monitor tx Port ID Set TX destination port of monitor function switch config monitor tx 3 show monitor Show port monitor information switch show monitor show monitor Show port monitor switch config interface 138 information fastEthernet 2 switch config if show monitor no monitor I Disable source port of switch config interface monitor function fastEthernet 2 switch config if no monitor 802 1x Commands Set Commands Level Description Example 8021x enable G Use the 802 1x global Switch config 8021x enable configuration command to enable 802 1x protocols 8021x system radiusip G Use the 802 1x Switch config 8021x system IP address system radius IP radiusip 192 168 1 1 global configuration command to change the radius server IP 8021x system serverport G Use the 802 1x switch config 8021x system port ID system server port serverport 1812 global configuration command to change the radius server port 8021x system G Use the 802 1x switch config 8021x system accountport system account port accountport 1813 port ID global configuration command to change the accounting port 8021x system sharedkey G Use the 802 1x Switch config 8021x system ID
97. ures of access and trunk ports A hybrid port has a PVID belonging to a particular VLAN and it also forwards the specified tagged frames for the purpose of VLAN communication across switches Note 1 2 lts not necessary to type 1 in the tagged VID The hybrid port will forward the frames of VLAN 1 The trunk port has to be connected to a trunk hybrid port of the other switch Both the tagged VID of the two ports have to be the same Untagged VID This column field is available when Link Type is set as Access Link and Hybrid Link Assign a number in the range between 1 an 4094 Tagged VID This column field is available when Link Type is set as Trunk Link and Hybrid Link Assign a number in the range between 1 an 4094 Click Apply to have the configuration take effect You can see the link type untagged VID and tagged VID information of each port in the table below on the screen 81 VLAN Configuration VLAN Operation Mode s0219 M Enable GVRP Protocol Management Wlan ID fo Apply 802 1Q Configuration Group Configuration Port Link Type Untagged Vid Tagged Vid Port 01 v Access Link fi Apply Help Port Link Type Untagged Vid Tagged Vid Port 01 Access Link 2 Port 02 Access Link 3 Port 03 Trunk Link 1 2 3 Port 04 Hybrid Link 4 2 3 Port 05 Access Link 7 Port 06 Access Link 1 Port 07 Access Link 1 Port 08 Access Link 1 Port 09 Access Link 1 Port 10 Access Link 1 802 1Q VLAN
98. y 86 RSTP Port Configuration System Configuration Portconfiguration Path Cost Priority imin P2P Admin Edge Admin Non Stp Port Port 02 Port 03 200000 128 Auto true v false 7 Port 04 Port 05 7 priority must be a multiple of 16 Apply Help RSTP Port Status Path Port OperOper Stp Port Cost Priority P2P Edge Neighbor Ste Role Port 01 200000 128 True True False Disabled Disabled Port 02 200000 128 True True False Disabled Disabled Port 03200000 128 True True False Disabled Disabled Port 04 200000 128 True True False Disabled Disabled Port 05 200000 128 True True False Disabled Disabled Port 06 200000 128 True True False Disabled Disabled Port 07 20000 128 False True False Forwarding Designated Port 08200000 128 True True False Disabled Disabled Port 09 20000 128 True True False Disabled Disabled Port 10 20000 128 True True False Disabled Disabled RSTP Port Configuration interface 87 6 20 SNMP Configuration Simple Network Management Protocol SNMP is the protocol developed to manage nodes servers workstations routers switches and hubs etc on an IP network SNMP enables network administrators to manage network performance find and solve network problems and plan for network growth Network management systems learn of problems by receiving tra
99. y issue a log message when the link up event of the port occurs Link Down The system will only issue a log message when the link down event of port occurs Link UP amp Link Down The system will issue a log message at the time when port connection is link up and link down 48 System Event Log Event Configuration Syslog Configuration SMTP Configuration Event Configuration System event selection Event Type Syslog SMTP Device cold start O M Authentication failure C M Ring topology change Vv Vv Port event selection Port Syslog SMTP Port 01 Disable H Disabe H Port 02 Disable Port 03 Disabe x Port 04 Disabe H Port 05 Disabe H Disable H Port 06 Disable H Disabe H Port 07 Disabe H Disabe H Port 08 Disable Disable Port 09 Disable H Disabe H Port 10 Disabe H Disabe H Apply _Help Event Configuration interface 49 6 9 Fault Relay Alarm The Fault Relay Alarm function provides the Power Failure and Port Link Down Broken detection With both power input 1 and power input 2 installed and the check boxes of power 1 power 2 ticked the FAULT LED indicator will then be possible to light up when any one of the power failures occurs As for the Port Link Down Broken detection the FAULT LED indicator will light up when the port failure occurs certainly the check box beside the port must be ticked first Please refer to the segment of Wiring the Fault Alarm Contact for the failure detect
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