Manual - Lantech Communications Europe
Contents
1. 109 od LESA EI GINO e 109 Appendix Command Line mode 112 Chapter 1 Introduction Lantech IPES 3424 is a high performance L2 managed industrial switch which provides L2 wire speed and advanced security function for network aggregation and backbone deployment It delivers all ports Gigabit speed with ITU G 8032 in 50ms ring recovery for various topologies in big infrastructure comprehensive QoS advanced security LLDP Cisco Discovery Protocol PTP v2 IEEE1588 precision time protocol for the scalability and resiliency I P ES 3424DSFP can recognize the diagnostic SFP and display SFP parameters on WebUl Compliant with IEEE802 3at af standard the Lantech IPES 3424 is able to feed each PoE port up to 830Watts 54VDC providing the connected PD devices at Gigabit speed It also supports advanced PoE management including PoE detection and scheduling PoE detection can detect if the connected PD is still alive then sending power PoE scheduling is to allow pre set power feeding schedule upon routine time table Specification IEEE 802 3 10Base T Ethernet IEEE 802 3u 100Base TX Ethernet IEEE 802 3z 1000Base X Ethernet IEEE 802 3x Flow Control Capability ANSI IEEE 802 3 Auto negotiation IEEE 802 1Q VLAN IEEE 802 1p Class of Service IEEE 802 1X Access Control IEEE 802 1D Spanning Tree IEEE 802 1w Rapid Spanning Tree IEEE 802 1s Multiple Spanning Tree IEEE 802 3ad Link Aggregatio2. 3 2 1 Command LLDP gt configuration Parameter N A Description display the LLDP information Example 121 LLDP configuration LLDP gt Interval 10 Port Mode enabledRx Ix enabledRx Ix enabledkRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix enabledRx Ix 3 2 2 Command LLDP gt enabled Parameter N A MO OO OS FE 2 Go Ka Fe Description enable LLDP protocol Example LLDP gt enabled LLDP gt Enabled true 3 2 3 Command LLDP gt mode Parameter lt port_list gt display LLDP information of the dedicated port enabledRxTx gt enable Tx and Rx of LLDP function with dedicated port enabledTxOnly gt enable Tx only of LLDP function with dedicated port enabledRxOnly gt enable Rx only of LLDP function with dedicated port disabled gt disable LLDP function with dedicated Description enable LLDP function of each port Example 122 LLDP gt mode enabledkx 1x enabledkx 1x enabledkx 1x enabledkx 1x enabledkx 1x enabledkx 1x enabledkx 1x IO LA UN e 3 2 4 Command LLDP gt interval 3 2 5 3 2 6 Parameter N A Description set the interval time of LLDP Example LLDP gt interval 10 LLDP gt Interval 10 Command LLDP gt timetolive Parameter N A Description display the alive time of LLDP information Example LLDP gt timetolive LLDP gt Time to live 14 Command LLDP
3. SYSTEM gt System save success 3 1 16 Command system gt ping Parameter N A Description ping the IP address Example SYSTEM gt ping 192 168 16 1 SISIEM gt host 192 168 16 1 18 alive 3 1 17 Command system gt arp Parameter N A Description resolve the IP address to MAC address Example SYSTEM gt arp SYSTEM gt IpAddress MacAddress 192 168 16 66 3 1 18 Command system gt memory Parameter N A Description display the status of used switch memory Example SYSTEM gt memory SYS TEM gt Size kb Memlotal MemF ree 3 1 19 Command system gt configaccess Parameter export import gt export or import the setting of switch URL gt set the destination which save load the setting file support both the TFTP and FIP protocol Description export or import the setting of switch Example 120 SYSTEM gt configaccess export ftp 192 168 16 66 3 1 20 Command system gt upgrade Parameter URL gt set the source of firmware file support TF TP and FTP and HTTP protocol Description update switch firmware Example SYSTEM gt upgrade tftp 192 168 Please wait for upgrade 3 2 LLDP Command LLDP Parameter N A Description Enter the LLDP mode Example gt ldp Avallable Commands Configuration port list Enabled lenableldisable Mode port list enabledkx Interval interval limetolive ttl Info port list Statistics clear
4. gt Low High Having focused this radio button DIO DI1 will only report the status when the external device s voltage changes from low to high gt M High Low Having focused this radio button DIO DI1 will only report the status when the external device s voltage changes from high to low Both Having focused this radio button DIO DI1 will report both the status when the external device s voltage changes from high to low or low to high Event description Please fill in the description for the event 42 Switch DIO Open high or 1 d Closed low or 0 t P ae ay MEL To Ground GND Controlled by Sensor or Other Device DI DO Terminal Block e High Status keep in open Status or 10 30V DC with External power e Low Status Keep in close Status or 30 2V DC with External power Digital Output DOUT r KE EE nr NR EEE get gt Low DOUT 2 O Digital Output Setting m When DOO DO1function is enabled first Digital Output DOO and second Digital Output DO1 will then be available respectively B Condition Tick the check boxes to decide whether or not to send the events via digital output with the event about port fail or power fail or both B Action Choose the transition type of DO0 DO1 gt Low High When switch receive the event about port fail or power fail DOO DO 1 will switch the output voltage from low to high gt High Low When switch receive the event about po
5. 36000 eal 36000 EI 36000 E s6000 L 36000 EI 36000 EI 36000 Le 36000 EI and cannot exceed 250W mV my m my my mV my my Set the Maximum power of each PoE port 6 7 2 Status 5 System Power Consumption Main Voltage Main Current IW AF TV 0 0214 5 Ports Port Ho Link State Temperature C Current mA Voltage V Power W Determined Class 1 Up On 41 44 38 B 17 1 D Down Detecting 41 1 None B Down Detecting 41 1 None 4 Down Detecting 41 0 0 0 Mone 5 Down Detecting 41 1 None al Down Detecting 41 DU 0 0 Mone i Ln Detecting 41 D None H Down Detecting 41 1 None B Power Consumption Total power consumption of all PoE ports B Main Voltage The input voltage for PoE power source B Main Current The input current for POE power source B Port No The number of each PoE port B Link The connection status of each PoE port B State 60 The PoE state of the end device Unknown means the end device is none PD device B Temperature Temperature of PoE chipset B Current Output current of each PoE port B Voltage Output Voltage of each PoE port B Power Power consumption of each PoE port m Detection Class The PoE class of each PD device where connects with switch Classification current Power range Class Usage Class deseription mA Watt 1 Default 14 Ada 12 94 Classification unimplemented Opti
6. About Web based Management 30 6 2 Preparing for Web Management 30 O 9 SAN LOOM D 31 S NN 32 6 4 1 System Identification Configuration 32 6 4 2 Switch Information rernnrernnrennnrennnrernnrevanrennnnen 33 6 4 3 IHGontfiguraton 33 SE le EE 34 sr OVEM LINE E o 36 6 4 6 SNMP Configuration rrrrannnnnennnnnennnnnennanennnnner 39 6 4 7 Fault Relay Configuration 41 6 4 8 Digital Input Output 42 69 FENG LOQ EE 45 6 5 1 View LOgS EE 46 DEN oe oe eee eee eee NU D I 47 BeOS PI EE 48 EE ee 49 6 5 5 Event Action Map ccccseccceeeeseeeseeeseeeeeeeeees 52 EEE 54 6 6 1 Device Settings eseeseeeeeeeeeeeene 54 662 EEN 55 6 6 3 Statistics ccccccceeccccsseceeceseeeeeseeeseeseeesseseeeseneeees 55 EIERE 56 EE 57 6 6 6 EE HEEL 58 6 7 Power over Ethernet IPES series 59 6 7 1 Configuration rrranrennnnnrrnnnnrrnnnernanrennanannnnnennnnnen 59 ETP 60 G 3Uetechon mmm mme 62 6 7 4 Scheduling E 63 s TOPOLOV EEE 64 sonda 67 0O e melt EE 67 EE 69 6 10 1 MAG Address Tables 69 610 2 ACCESS COMO LIS mensen 70 6 10 3 IEEE 802 1X Radius Gener 71 BI AE E 72 OT EE EE 3 6 11 1 802 1Q VLAN Gong 73 SEM ZEITEN T TIT 19 Od KC EE 76 Sa ER E RE VAA 612 LLDP GonIIquiallOll sescosnis o
7. H Weighted Fair Queue Ratio Traffic Traffic 1 Traffic 2 Traffic 3 Traffic 4 Traffic 5 Traffic 6 Traffic 7 1 1 1 1 1 1 1 1 Apply 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 9 1 QoS Policy B Using the weight fair queue scheme tI he 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 be processed at the same time in accordance with the 8 4 2 1 policy rule B Priority Type There are 5 priority type selections available Port based TOSonly COS only TOS first and COS first Disable means no priority type is selected 67 Port Base Priority Configure the priority level for each port With the drop down selection item of Priority Type above being selected as
8. ID is not already contained within the table Entries are removed from the table when a given port s link is down an LLDP shutdown frame is received or when the entry ages out B Frames Received In Error The number of received LLDP frames containing some kind of error B Frames In The number of LLDP frames received on the port 81 B Frames Out The number of LLDP frames transmitted on the port B TLVs Discarded Each LLDP frame can contain multiple pieces of information known as TLVs TLV is short for Type Length Value If a TLV is malformed it is counted and discarded B TLVs Unrecognized The number of well formed TLVs but with an unknown type value 82 6 13 CDP The Cisco Discovery Protocol CDP is a proprietary data link layer protocol developed by Cisco It is used to share information about other directly connected Cisco equipment such as the OS version and IP address CDP timerfsecs 60 CDP holdtime secs 180 Port Enabled Iv s ai xl 4 Di tn P oo Hi x x x 6 13 1 CDP Configuration Device Settings B CDP Enabled Enabled the switch will send out CDP information and will analyze CDP information received from neighbors B Tx Interval secs The switch periodically transmits CDP frames to its neighbours for having the network discovery information up to date The interval between each CDP frame is determined by the Tx Interval value Valid values are restricted to 5 32768 second
9. Monitor Hide Thresholds Ji wi Event Setup Port 9 Link Down Type Temperature Ver Bias TX Powel RX Powel Current Value 0 0 C 0 0 V 0 0 mA dBm dBm Port 10 Link Down Type Temperature Ver Bias TX Powel RX Powel Current Value 0 0 C 0 0 V 0 0 mA dBm dBm Event setup will be redirected to DDM event please reference to page47 Events Enw hManitor Evert OOM Event SFP Digital Diagnostic Monitor Event Enable GOM Events KR 111 Appendix Command Line mode Except the web access mode the Lantech switch also support Telnet access and console access mode to compare the web access mode both the Telnet and console only support command line user interface all these commands are shown as below 1 Access via console port 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 115200 bps Data Bits 8 Parity none Stop Bit 1 Flow control None COM2 Properties 21x Port Settings Bits per second l5 Deta bits mM Parity None sl Stop bits Dn el Flow control None sl Advanced Restore Defaults e 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 ap
10. by any USB dongle It doesn t need any configuration from web browser or other user interface 21 Chapter 4 Network Application ITU G 8032 Scheme Lantech G 8032 protocol is following ITU International Telecommunication Unit G 8032 v2 draft The benefits of G 8032 are 1 lt 50ms recovery time when failover 2 G 8032 has defined the protocol scheme parameters functions test measures to be unified that the users can evaluate the possible network infrastructure without literally testing each brand in large scale Ring Coupling Redundant Coupling 22 Redundant Coupling with Multiple Rings Major Ring 1 Sub Ring 4 Major Ring 2 Sub Ring 5 Major Ring 3 Multiple Rings Dual Rings Major Ring 1 Major Ring 2 23 Multiple Rings Major Ring 1 Major Ring 2 Dual Homing i T TTA Primary Path Backup Path Major Ring 1 24 Chain Multiple Chain Sub Ring 2 Major Ring 1 d Sub Ring 3 25 Cascade Chain Major Ring 1 Major Ring 2 Major Ring 3 Chain in Chain Sub Ring 4 KEKE VIE EL EE tes Sub Ring 2 Sub Ring 3 26 Chapter 5 Console Management 5 1 Connecting to the Console Port The supplied RS 232 cable which one end is DB9 female connector and the other end is DB9 male connector Attach the end of DB9 female connector to PC or terminal and the other end of DB9 male connector to the console port of the switch The connected terminal or PC
11. description industrial SYS TEM gt E systemDescription industrial 116 3 1 6 Command system gt DHCPclient Parameter enable disable Description enable or disable DHCP client Example SYSTEM gt dhepclient enable SYS TEM gt DHCP Client enable 0 SYSlEM gt dhcpclient disable SYSTEM gt DHCP Client enable I 3 1 7 Command system gt DHCP server Parameter enable disable gt enable or disable DHCP server range low range high set the IP range netmask set submask gateway set gateway lt dns gt gt set DNS server lease time gt gt set the lease time of released IP Example SISTEM gt DHCPserver enable true range low 192 168 9 100 range hish 192 168 9 200 netmask 255 255 255 0 gateway 192 168 16 254 Ons 8 8 8 8 lease_time 86400 3 1 8 Command system gt DHCPstatus Parameter N A Description show the information of DHCP client Example 117 SYSTEM gt DHCPs tatus SYSTEM gt MacAddress IpAddress O00 1f c6 3d 7e 25 192 168 9 101 3 1 9 Command system gt netstatus Parameter N A Description show the status about IP address Example SYSIEM gt netstatus SISIEM IpAddr 192 168 16 1 Netmask 255 255 255 0 Gatewaylp DnsIp 168 95 1 1 3 1 10 Command system gt netsettingIPv4 Parameter lpAddr set IP address lt netmask gt gt set netmask lt gatewayip gt gt set gateway lt dnsip gt g
12. ingress of dust complete protection against 6 Dust tight contact Liquid ingress protection The second digit indicates the level of protection that the enclosure provides against harmful ingress of water Level Protected against Not protected Dripping water Dripping water when tilted up to 15 Spraying water Splashing of water Water jets Powerful Testing for Dripping water vertically falling drops shall have no harmful effect Vertically dripping water shall have no harmful effect when the enclosure is tilted at an angle up to 15 from its normal position Water falling as a spray at any angle up to 60 from the vertical shall have no harmful effect Water splashing against the enclosure from any direction shall have no harmful effect Water projected by a nozzle 6 3 mm against enclosure from any direction shall have no harmful effects Water projected in powerful Details Test duration 10 minutes Water equivalent to 1 mm rainfall per minute Test duration 10 minutes Water equivalent to 3 mm rainfall per minute Test duration 5 minutes Water volume 0 7 litres per minute Pressure 80 100 kPa Test duration 5 minutes Water volume 10 litres per minute Pressure 80 100 kPa Test duration at least 15 minutes Water volume 12 5 litres per minute Pressure 30 kPa at distance of 3m Test duration at least water jets jets 12 5
13. is in Enable mode the Enable Web Server and Enable Telnet Server and Enable SSH Server check boxes will then be available m Enable Web Server When this check box is checked the IP addresses among IP permit list will be allowed to access via web service m Enable Telnet Server When this check box is checked the IP addresses among IP permit list will be allowed to access via telnet service m Enable SSH Server When this check box is checked the IP addresses among IP permit list will be allowed to access via ssh service B P permit list Assign up to 20 specific IP address Only these 10 IP address can access and manage the switch through the Web browser 72 Management VLAN ID 0 2 ACCESS B 6 11 VLAN 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 6 11 1 802 1Q VLAN Config Management YLAN ID Fort No Link Type FYID Tagged vIDs 1 ACCESS 2 ACCESS 1 3 ACCESS H 1 4 ACCESS 1 5 ACCESS H 1 nm 6 ACCESS 1 Ir 7 ACCESS 1 B ACCESS 13 B Management VLAN ID This will set which VLAN group can ac
14. must support the terminal emulation program 2 5 2 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 115200 bps Data Bits 8 Parity none Stop Bit 1 Flow control None COM2 Properties 21x Port Settings Bits per second Bw rE Data bits o sl Parity None v Stop bits nh 5 Flow control none m Advanced Restore Defaults TN 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 admin 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 admin Password Console login interface 29 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 Mic
15. oneself from port show Loop Protection happens The port will be locked when it received the looping Protection frames E Enable Loop Protection Control whether loop protections is enabled as a whole B Interval The interval between each loop protection PDU sent on each port valid values are 1 to 10 seconds E Shutdown The period in seconds for which a port will be kept disabled in the event of a loop is detected and the port action shuts down the port Valid values are 0 to 604800 seconds 7 days A value of zero will keep a port disabled until next device restart 58 6 7 Power over Ethernet IPES series This segment shows the PoE Power over Ethernet function complying with IEEE 802 3af at standards 6 7 1 Configuration System Maximum Power Available 250 Ww 4 Ports Port No Enabled Scheduling 1 v F Lowy H h DO Low E T Low 4 al F Lowy 5 h m Lowy B hv DO Low 2 e m Lowy B h F Low B Maximum Power Available This function will limit the total power consumption B Port No The number of each PoE port B Enable Enable disable the PoE function of each PoE port B Priority Set the priority of power supply if the total power consumption of all PoE ports was over the value of maximum power available the switch will offer the power to the high priority PoE port and stop to supply power to the low priority PoE port B Power Limit 59 Priority Power Limit 36000
16. 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 B Time zone 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 36 ae Atlantic Standard 4 hours EDT Eastern Daylight EST Eastern Standard 5 hours 7 am CDT Central Daylight CST Central Standard 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 MEWT Middle European Winter SWT Swedish Winter EET Eastern European USSR Zone ams BT Baghdad USSR 3 hours 3 pm Zone 2 37 2 om WAST West Australian hours 7 pm Standard CCT China Coast 8 hours 8 pm USSR Zone 7 JST Japan Standard 9 hours 9 pm USSR Zone 8 EAST East Australian Standard GST 10 hours 10 pm Guam Standard USSR Zone 9 IDLE International Date Line NZST New Ze
17. 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 detection B Power Failure Tick the check box to enable the function of lighting up the FAULT LED on the panel when power fails B 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 Power Failure F Power 1 F Power 2 Port Link Down Broken Port 1 Port 2 F Port 3 T Port 4 F Ports T Port amp Part 7 T Part 8 T Port 9 F Port 10 T Port 11 F Port 12 Apply 41 6 4 8 Digital Input Output The IPES IES Industrial Switch contains two digital outputs and two digital inputs Outputs are open collector transistor switches that may be controlled by the host computer They provide control signals which can be applied to heaters pumps and other electrical equipment The digital inputs may be read by the host computer and used to sense the state of a remote digital signal Digital Input DIN 2 E Low gt High Digital Input Setting When DIO0 Dlffunction is enabled first Digital Input DIO and second Digital Input DI1 will then be available respectively Digital Input Choose the transition type to trigger DIO DI1
18. will be displayed when DDM SFP is inserted 48 6 5 4 Actions Local Log Action Remote Syslog Action Email Action SMS Action SHMP Trap Action POut Action Save to Local 6 5 4 1 Local Log Action Save to Local Save log to local file Local Log Action Remote 5 Save to Local 6 5 4 2 Remote Syslog Action Log to Remote Syslog Server Save log to Syslog Server 49 Local Log Action Remote Syslog Action Email Action Log to Remote Syslog Server syslog Server 0 0 0 0 Tag node event Facility user Host Name host 6 5 4 3 Email Action Email Alert Sent log via Email Local Log Action Remote Syslog Action Email Action SMS Action SHMP Trap Action Email Alert subject Event Log Cloud SMTP w Receivers FA Please enter at least one recelver 6 5 4 4 SMS Action SMS Alert Sent log via SMS service The must connect with internet and define the SMS server before using this function 50 Currently the SMS service is offered by Lantech in Taiwan Local Log Action Remote Syslog Action Email Action SMS Action SHMP Trap Action L SMS Alert The SMS alert service may charge usage fee in the future User ID test Password wees Sender Text SYSOP Bn mn m m m m mm mem mm mm mm mmm mm mem mm mmm mm mm mm mm mm mm mm mm rm mm mmm mm mm mm mmm mm mm mm mm mm mem mmm mm mem mm mm mmm mmm mm mi 6 5 4 5 SNMP Trap Action SNMP Trap Action The setting page of this function will be redire
19. you can press Reload or F5 to refresh the web page and get the newest event log 46 6 5 2 Events Env Holt Ex at DOR Eve at Environment Monitoring Event Enable EnvMon Events M voltage UU Ww 20 00 v DUDU v 100 0 Range 30 00 Current n n 1 500 Range 1 467 A Power z Wu 50 0 Range 28 8 W Temperature 50 0 C 100 0 C Range 89 0 C 6 5 2 1 Environmental Monitoring Event You can set the trigger range of each event here for example if you set the blue bar in the range from 20V to 50V when the voltage of power input is over 50VDC or lower than the 20VDG it will trigger the event system 47 6 5 3 DDM event SFP Digital Diagnostic Monitor Event Enable DDM Events M Temperature 45 D c 90 0 C Range 135 0 C Voltage Range 0 61 W 30 0 m Range 24 0 m 20 0 dBm 10 2 Om 2 DU d m 1 0 dBm Range 7 5 dem FEX Power 20 0 dem 18 dBm 2 DU dm 1 0 dm Range 16 0 d m The switch supports DMI where can read all the parameters info from DDM SFP when plugged into SFP slots the shown information is as above including SFP temperature input voltage TX bias TX dBm and RX dBM You can set the trigger range of each event here for example when you set the blue bar in the range from 459C to 90 C if the working Temp of SFP module is over 90 C or lower than the 45 C it will trigger the event system Note This function
20. 2 x Apply There are 3 roles in the ring of G 8032 owner neighbour and none remember 3 roles are very import things during the setting procedure The port 0 of owner switch must connect with the neighbour switch After enabling the ring of G8032 the portO of owner switch will be blocked at first To be safe we suggest to finish all the settings of G8032 before connecting physically if the user is not familiar with the ring G8032 function The setting of owner switch Because we only have single ring so we set the type as Major 103 ID Enabled Role Type Ring Port 0 Editing Ring Instance 0 D 1 Ring Enabled iv Role Owner gt Type Major Poto Portz Port 1 Aly The setting of neighbour switch ID Enabled Role Type Ring Port 0 Editing Ring Instance 0 ID 1 Ring Enabled M Role Type Major Porto Porgy xl Poti Port 10 v The setting of none switch 104 Ring Port 1 Ring Port 1 ID Enabled Role Type Ring Port 0 Ring Port 1 Editing Ring Instance 0 ID 1 Ring Enabled M Role NE c Type Major gt Port 0 Port 9 Port 1 Port 10 6 19 Dual Homing ID Enabled Role Port Apply This function was designed to connect ITU Ring with the other 3 party switches while maintaining redundant path 105 ID Enabled Role Port Ka Editing Dual Homing Instance 1 ID 4 Enabled C Role Primary ir Port P
21. 2 Green Power or port failure FAULT A network device is detected The port is transmitting or receiving packets Link Ack Blinking from the TX device RJ 45 No device attached 0 device attached Speed oe fe ME port is operating in 1000T mode Off The port is not operating in PoE mode IPES 3424 fon The port is operating in PoE mode La A network device is detected The port is transmitting or receiving packets Link Ack Blinking from the TX device Nodeveattached device attached opeed 1000M The port is operating in 1000T mode 11 Chapter 3 Hardware Installation Hardware installation 1 Unpack the Industrial switch 2 Check if the Rack mount brackets are screwed on the Industrial switch or not If the Rack mount brackets are not screwed on the Industrial switch please refer to Rack Mounting section for rack installation 3 To install the Industrial switch ina 19 inch Rack 4 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 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 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 por
22. Auto topology drawing Topology demo Auto configuration for G 8032 Auto topology drawing with detail node info DDM threshold monitoring with dB values Complete CLI for professional setting Support IEEE802 1d Spanning Tree IEEE802 1w Rapid Spanning Tree IEEE 802 1s MSTP The quality of service determined by port Tag and IPv4 Type of service IPv4 Differentiated Services Code Points DSCP Support IEEE802 1p class of service per port provides 8 priority queues Support 50 entries of MAC address for static MAC and another 50 for MAC filter Support 3 mirroring types RX TX and Both packet Internal sensor to monitor temperature voltage and current and send SMS text SNMP traps and emails if any abnormal events Support IGMP snooping v1 v2 v3 Supports IGMP static route IGMP query and router port 256 multicast groups and IGMP query Support ingress packet filter and egress packet limit The egress rate control supports all of packet type the limit rates are 0 100Mbps Ingress filter packet type combination rules are Broadcast Multicast Flooded Unicast packet Broadcast Multicast packet Broadcast packet only and all types of packet The packet filter rate can be set from 0 to 100Mbps The packet filter rate can be set an accurate value through the pull down menu for the ingress packet filter and the egress packet limit Support 10 IP addresses that have permission to access the switch management and to prevent unautho
23. ID The trunk 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 3 Hybrid Link A segment which consists of Access and Trunk links The hybrid port has both the features of access and trunk ports A hybrid port has a PVID belonging to a particular VLAN and it also forwards the specified tagged frames 74 for the purpose of VLAN communication across switches B PVID This column field is available when Link Type is set as Access Link and Hybrid Link Assign a number in the range between 1 and 4094 B 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 and 4094 VLAN IL Fart Members 2 3 6 11 2 Status You can see the status of each VLAN group in here hes MYR VLAN ID Multicast Address Port Members Delete MVR Apply 19 6 12 MVR The MVR feature enables multicast traffic forwarding on the Multicast VLAN Ina multicast television application a PC or a television with a set top box can receive the multicast stream Multiple set top boxes or PCs can be connected to one Subscriber port which is a switch port configured as an MVR receiver port When a subscriber selects a channel the set top box or PC sends an IGMP join message to switch A in order to join the appropriate multicast Uplink ports that se
24. IP address The IP address of the connected PD B Interval How frequent the switch will ping the IP address of PD m Retry Time How many times of ping failure the switch will define the PD as dead or failure 62 m Failure Log Failure times of the PD detection B Failure Action When the switch can not detect the PD there are several failure action to be set as followings Nothing Power Down Power On Restart Forever Festart Once Nothing No action Power Down shutdown the power of the PoE port Power On keep the power on with the PoE port Restart Forever Restart the power of the PoE port always Restart Once only restart the PoE power one time B Reboot time To set the reboot time of PD in order for the switch to check PD connection after PD is completely boot up 6 7 4 Scheduling The Poe scheduling is to feed or shut down PoE power over a routine schedule in the following table Power Schedule Hour EEE S Hes Les e n sn KEE eene ees OS ER Sunday Monday Tuesday Wednesday Thursday Friday m m m m m m m m m m m m m m m m m m m m DJ ID DIDI d OV O O O O0 0 0 m m m m m m m OV O O O0 0O 0 0 O O O O O 0 0 m m m m m m m WR OE CE IETIET CI Wa Iw Www EH m m m m m m m m m m m m m m O O O O 0 0 0 CIR IW II Tee Te OO OOO O G OO OOOO G m m m m m m m I1 CI CT IET ET HH O O O O0 0 0 0 m m m m ll lhl OV O O O 0O 0 0 O O O O 0 0 0 sat
25. Lantech IPES 3424 IES 3424 24 10 100TX PoE 4 DualSpeed SFP Industrial L2 Switch w ITU G 8032 Ring User Manual Nov 2014 Recommendation for Shielded network cables STP cables have additional shielding material that is used to reduce external interference The shield also reduces the emission at any point in the path of the cable Our recommendation is to deploy an STP network cable in demanding electrical environments Examples of demanding indoor environments are where the network cable is located in parallel with electrical mains supply cables or where large inductive loads such as motors or contactors are in close vicinity to the camera or its cable It is also mandatory to use an STP cable where the power device like IP camera is used outdoors or where the network cable is routed outdoors Aluminum Foil Shield Twisted Pair Wires Important Notice Lantech Communications Global Inc reserves the right to modify the equipment its specification or this manual without prior notice in the interest of improving performance reliability or servicing At the time of publication all data is correct for the operation of the equipment at the voltage and or temperature referred to Performance data indicates typical values related to the particular product No part of this documentation or information supplied may be divulged to any third party without the express written consent of Lantech Communications Global Inc
26. Port based this control item will then be available to set the queuing policy for each port Cos 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 Tos TOS priority the system provides 0 63 ToS priority level Each level has 8 type of priority 0 7 The default value is 1 priority for each level When the IP packet is received the system will check the ToS level value in the IP packet has received For example user set the ToS level 25 is 7 The port 1 is following the ToS priority policy only When the packet received by port 1 the system will check the ToS value of the received IP packet If the ToS value of received IP packet is 25 priority 7 and then the packet priority will have highest priority __ Appl Click to have the configuration take effect 68 6 10 Security Static MAC Addresses MAC Fir AH MAC Ackinesses 0 static MAC address entries MAC Address LAN ID Port Ho EEGEN MAC address c C d Port 1 Please enter a valid MAC address Lee Apply 6 10 1 MAC Address Tables Use the MAG address table to ensure the port security m Static MAC Address You can add a static MAC address it remains in the switch s address table regardless of whether the device is physically connected to the switch This saves the switch from having
27. Products offered may contain software which is proprietary to Lantech Communications Global Inc The offer or supply of these products and services does not include or infer any transfer of ownership Interference Issues 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 commercial or industrial 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 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 interfer
28. SNMP version mode 39 Here you can define the new community string set and remove the unwanted community string gt Community String Fill the name string gt Privilege Read only Enables requests accompanied by this community string to display MIB object information Read write Enables requests accompanied by this community string to display MIB object information and to set MIB objects gt Click Apply String Permission public Read Only private Read Vvrite A trap manager is a management station that receives the SNMP trap messages generated by the switch If no trap manager is defined no traps will be issued To define a management station as a trap manager assign an IP address enterthe SNMP community strings and select the SNMP trap version B IP Address Enter the IP address of the trap manager Community Enter the community string for the trap station B Version Select the SNMP trap version tyoe v1 or v2c B Click Add B o remove the community string select the community string listed in the current manager s field and click Remove 40 Comm wirt Trap WS Users IF Address Community version ger v UEM RETE ig 6 4 7 Fault Relay Configuration The Fault Relay Alarm function provides the Power Failure andPort 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
29. address is the beginning of the dynamic IP range For example dynamic IP is in the range between 192 168 1 100 192 168 1 200 In contrast 192 168 1 100 is the Low IP address IP Range down 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 1 100 192 168 1 200 In contrast 192 168 1 200 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 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 35 Enable DHCP Server Mi IP Range 192 160 16 100 192 166 16 A00 Subnet Mask zug e e e e 1 Gateway 132 158 15 254 DNS 0 0 0 0 Lease Time Bb 6 4 5 System Time SNTP Simple Network Time Protocol is a simplified version of NTP which is an Internet protocol used to synchronize the clocks of computers to a specified 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
30. aland 12 hours Midnight Standard NZT New Zealand B SNTP Client setting Time zone This filed is to select the Timezone which this switch is located Manual synchronize the time with the desktop which connect with switch SNTP This is to enable disable the SNTP service enable the SNTP client is to use the service from SNTP server the system time will follow the SNTP server disable is to use local time without any SNTP server information note that the network should be enabled to have system receive time information from SNTP server if 38 itis enabled NTP Sever set the SNTP server IP address You can assign a local network time server s IP address or an internet time server s IP address B Click Apply to have the configuration take effect Time Zone select an Option Y clockSoure 21 12 Manual Device Time ee MTP Server ntp ubuntu cam 6 4 6 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 traps or change notices from network devices implementing SNMP Agent Version Select the SNMP version V1 V2c or V3 that you want to use And then Click Apply to switch to the selected
31. ber cable User can connect two devices up to 2kmdistances B Gigabit SFP mini GBIC port The small form factor pluggable SFP is a compact optical transceiver used in optical communications for both telecommunication and data communications The SFP slots supporting Gigabit soeed up to 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 soeed up to 1000 Mbps and you can prevent noise interference from the system 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 18 Transceiver Inserted Second insert the fiber cable of LC connector into the transceiver LC connector to the transceiver 19 To remove the LC connector from the transceiver 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 20 3 5 USB Dongle The USB slot is to backup and restore the setting of switch automatically
32. bled B State The current STP port state of the port The port state can be one of the following values Discarding Learning Forwarding 96 Group Configuration Trunking Group Enable LACP Dynamic Trunking Fort Members 1 m 2 P 3 p d 3 3 r 6 r 6 16 Aggregation 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 16 1 Aggregation Configuration B Trunking Group There are 6 trunk groups to be selected B Enable LACP Dynamic Trunking Enable LACP with the dedicated trunking group B Port member This column field allows the user to choose the total number of active port up to four With LACP 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 97 are standby redundant ports and can be aggregated if working ports fail Tucking Group LACP System ID Port Members 6 16 2 LACP Port Status You can check the setting of Port aggregation in Status B Trunking Group Number of
33. bour unit s address that is used for higher layer entities to assist discovery by the network management This could for instance hold the neighbor s IP address 85 6 14 IGMP Snooping The switch support IP multicast you can enable IGMP protocol on web management s switch setting configuration page then the IGMP snooping information displays IP multicast addresses range are from 224 0 0 0 through 239 255 255 255 Global Configuration Enable Querier M Enable snooping M Flood Well known Multicast Traffic VLAN Configuration ID Enable Querier Enable Snooping 1 Iv RS Port Releated Configuration Port Router Port Fast Leave 1 C Iv 2 Iv 3 C Iv 86 6 14 1 IGMP Snooping Configuration Global Configuration 1 Enable Querier f Enable Snooping M Flood Well known Multicast Traffic Port Releated Configuration Port Router Port Fast Leave 1 Iv 2 O Iw 3 Iv 6 14 1 1 Global Configuration B Enable Query enable or disable the IGMP query function The IGMP query information will be displayed in IGMP status section Enable Snooping enable or disable the IGMP protocol Flood Well known Multicasr traffic let the switch know how to process the Multicast data stream which was unregistered with IGMP Query E 6 14 1 2 Port Related Configuration B Port The switch port number of the logical port B Router Port opecify which ports act as router ports A router port is a port on the Ethernet switch that
34. byte MAC address of the switch forms a Bridge Identifier 94 HO Bridge ID Root ID Root Fort Root Cost Topology State CIST 0 32 60 32 Sie 0 0 6 15 5 MSTP Bridges Status B Instance The Bridge Instance ex CIST MSTI B Bridge ID The Bridge ID of this Bridge instance B Root ID The Bridge ID of the currently elected root bridge B Root Port The switch port currently assigned the root port role m Root Cost Root Path Cost For the Root Bridge it is zero For all other Bridges it is the sum of the Port Path Costs on the least cost path to the Root Bridge B Topology State The current state of the Topology Change Flag of this Bridge instance B Topology Change Last The time since last Topology Change occurred 95 as Designated FORVWARDING in CIST Port 4 as Disabled SLOCKING in CIST Port 7 as Designated FORWARDING in CIST Port 10 as Disabled BLOCKING in CIST as Disabled BLOCKING in CIST Port 5 as Disabled BLOCEKIMG in CIST Port8 as Disabled BLOCKING in CIST Port 11 as Disabled BLOCKING in CIST 6 15 6 Bridge status of all ports B Port The switch port number of the logical STP port B Role as Disabled BLOCKING in CIST Ports as Disabled BLOCKING in CIST Ports as Disabled BLOCKING in CIST Port 12 as Disabled BLOCKING in CIST The current STP port role of the port The port role can be one of the following values AlternatePort BackupPort RootPort DesignatedPort Disa
35. cess the switch the default O means all VLAN group this limitation will not support port based VLAN m Link Type There are 3 types of link type 1 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 link 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 2 Trunk Link A segment which provides the link path for one or more VLAN 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 A trunk port doesn t insert tag into an untagged frame and therefore the untagged VID column field is not available It s not necessary to type 1 in the tagged V
36. ct to SNMP TRAP Local Log Action Remote Syslog Action Email Action SMS Action SNMP Trap Action Di Qut Action Please refer ta SNMP Trap 6 5 3 6 DOut Action DOUT Action The setting page of this function will be redirect to Digital Input Output Local Log Action Remote Syslog Action Email Action SMS Action SHMP Trap Action POut Action Please refer to the Digital OUT section of Digital Input Output 51 6 5 5 Event Action Map Event Actions Choose an Event to Add y Event Actions for Link Change 79959 an Event to Add 6 5 5 1Event Actions A Choose the event which you want to active Choose an Event to Add Q DDM POE Login fail Login success DIN 1 DIN 2 Power 1 on i B You will find the event which you select will be display as below then choose forwarding method to define how to forward this event to manager side 52 Event Actions Choose an Event to Add Y ES SNMP Trap LOUT LIT 2 C You can set the forwarding method of port break event in here Event Actions for Link Change Part 1 up Port 1 down Part 2 up Part 2 down Part 3 up Part 3 down Part 4 up Fart 4 down 53 6 6 Ports Port No 1 2 Type Description Enabled Flow Control Speed 100TX Port 1 e Auto gt 100TX Port 2 Auto 6 6 1 Device Settings In Port control you can configurethe settings of each port to control the connection parameters and the s
37. e Bridge and STP System settings It allows you to configure STP System settings are used by all STP Bridge instance in the Switch 6 15 1 MSTP Global Configuration B Mode Show the STP protocol version setting Valid values are STP RSTP and MSTP B Name The name identifying the VLAN to MSTI mapping Bridges must share the name and revision see below as well as the VLAN to MSTI mapping configuration in order to share spanning trees for MSTI s Intra region The name is at most 32 characters B Revision The revision of the MSTI configuration named above This must be an integer between 0 and 65535 90 B Forward Delay The delay used by STP Bridges to transit Root and Designated Ports to Forwarding used in STP compatible mode Valid values are in the range 4 to 30 seconds B Max Age The maximum age of the information transmitted by the Bridge when it is the Root Bridge Valid values are in the range 6 to 40 seconds and MaxAge must be lt FwdDelay 1 2 B Maximum Hop Count This defines the initial value of remaining Hops for MSTI information generated at the boundary of an MSTI region It defines how many bridges a root bridge can distribute its BPDU information to Valid values are in the range 6 to 40 hops 6 15 2 How to enable MSTP 6 15 2 1 Enter MSTP gt CIST Settings press icon to enable MSTP The default was disable with all ports PS QoS Security VLAN MVR LLDP SS IGMP Sno
38. ection status of each port Example 125 3 3 4 1OOTX 100TX 1 O0 TX 1 O0 TX 1 O0 TX 1 O0 TX 1 O0 TX 1 O0 TX DSEP Gelle oa OA Go hoe Command port gt enabled Link down down down up down down down down down enable Parameter lt port list gt gt choose which port you want to enable or diasble enable disable gt enable disable Description enable or disable switch port Example PORT T gt enable POR gt Port Enabled l 5 3 4 5 S Command port description Parameter N A Description display the description of each port Example 126 POR T gt description UA T WI hoe Un T ad hoe 3 3 5 Command port gt speed Parameter N A Description display the speed of each port Example POR I gt speed Speed ji 2 3 A 5 3 3 6 Command port gt flowcontrol Parameter lt port list gt gt choose which port you want to enable or diasble enable disable gt enable disable Description enable or disable flow control function of each port Example 127 PORT gt tf I owcontrol ON GAR 2 Kam 3 3 7 Command port gt Ingressrate Parameter lt port_list gt gt choose which port you want to set the ingress rate lt rate gt kbps set the ingress rate of these packet as below broadcast multicast unicast broad uni broad multi multi uni uni broad multi K dh Ab A AAA Description set the ingress rate of the dedicated p
39. ed by the page header B Port No The switch port number of the logical LLDP port B Port Id 11 Enter characters to be id name for the logical LLDP port B Mode Select LLDP mode Rx only The switch will not send out LLDP information but LLDP information from neighbor units is analyzed Tx only The switch will drop LLDP information received from neighbors but will send out LLDP information Disabled The switch will not send out LLDP information and will drop LLDP information received from neighbors Both The switch will send out LLDP information and will analyze LLDP information received from neighbors Local Port Chassis ID Fort ID Port Description System Hame System Capability Management Address 6 12 2 LLDP Neighbor This page provides a status overview for all LLDP neighbors The displayed table contains a row for each port on which an LLDP neighbor is detected The columns hold the following information m Local Port The port on which the LLDP frame was received B Chassis ID The Chassis ID is the identification of the neighbor s LLDP frames B Remote Port ID The Remote Port ID is the identification of the neighbor port m Port Description Port Description is the port description advertised by the neighbor unit B System Name System Name is the name advertised by the neighbour unit 78 B System Capabilities System Capabilities describes the neighbour unit s capabilities The possible capabilitie
40. ed in this recommendation achieve highly reliable and stable protection and never form loops which would fatally affect network operation and service availability 6 18 1 G 8032 Ethernet Ring Protection Configuration Node Failure ID Enabled Role Type Ring Porto Ring Port I Protection Disabled None Major Port 1 Port 2 NO The G 8032 Ethernet Ring Protection Switch instances are configured here B ID The ID of the created Protection group B Enabled Enable Disable the G 8032 ERP B Role It can be either RPL owner or RPL Neighbor 101 B Type Type of Protection ring It can be either major ring or sub ring B Ring Port 0 This will create a Port 0 of the switch in the ring B Ring Port 1 This will create Ring Port 1 of the switch in the Ring B Node Failure Protection This option can prevent the event that all switch in the same ITU ring reboot together then the ITU Ring will fail ID State Role Ring Fort 0 Ring Fort 1 6 18 2 How to set ERPS G 8032 Make sure you have disabled the MSTP RSTP protocol Press icon to add one ring with G 8032 protocol PS in this case we will use the port9 and port10 of each switch to build a ring 102 G 8032 Ethernet Ring Protection ID Enabled Role Type Ring Port 0 Ring Port 1 1 Disabled None Sub Port 1 Port 2 Enter edit mode G 8032 Ethernet Ring Protection ID Enabled Role Type Ring Port 0 Ring Port 1 1 Disabled None Sub Port 1 Port
41. ement the network or check and find the problem when the collision or heavy traffic occurs Port The port number Type Displays the current speed of connection to the port Link The status of linking Up or Down 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 he counts of receiving good packets including undersize less 55 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 Bcast Packet The counts of broadcast packet received Rx Mcast Packet The counts of multicast packet received Tx Mcast Packet The counts of multicast packet transmitted B Click Clear button to clean all counts Direction Destination Mirror From Rx Port I TX Port 1 T Apply 6 6 4 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 mo
42. ence by one or more of the following measures B Reorient or relocate the receiving antenna B Increase the separation between the equipment and receiver B Connect the equipment into an outlet on a circuit different from that to which the receiver is connected B 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 Chapter 1 Introduction 1 PENANG 1 Chapter 2 Hardware Description 7 2 1 Physical Dimension 7 22 PLOG le EE 8 2939 PENNE 11 Chapter 3 Hardware Installation 12 Hardware installation eeseeeseeeeee 12 3T RACK MOUMUNG vesen 13 3 2 Wiring the Power Inputs 15 3 3 Wiring the Fault Alarm Contact 17 34 CNN 18 29 9 USB Be ue sisareen 21 Chapter A Network Application 22 ITU G 8032 Gcheme 22 FIN COIN le EE 22 Multiple Rings 23 DN et a NODUM 24 SINT 25 Chapter 5 Console Management 27 5 1 Connecting to the Console Port 27 5 2 Login in the Console Interface 28 Chapter 6 Web Based Management 30 6 1
43. evice Time 2013 11F85R FF 04 38 22 Up Time 2263 Software version aes Kernel Version or292a0b MAC Address 20 60 46 atl 04 15 Hardware Model IES S408DFT Hardware Descriptian 2 10100 10007 2 100 1000 SEP 86 10 7100T L2 Industrial Managed Switch 6 4 3 IP configuration The switch is a network device which needs to be assigned an IP address for being identified on the network Users can select a methodof assigning IP address to the switch B DHCP Client Enable or disable the DHCP client function When DHCP client function is enabled the switch will obtain an IP address from the network DHCP server automatically The default IP address will be replaced by the assigned IP address from the 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 obtained from the DHCP server B IP Address Assign a static IP address to the switch from the subnet address 33 range that the network is using If DHCP client function is enabled this switch is configured as a DHCP client The network DHCP server will assign the IP address to the switch and the switch displays it in this column The default IP is 192 168 1 88 or the user can choose an IP address manually when DHCP Client is disabled m Subnet Mask Assign the subnet mask of the IP address If DHCP client function is disabled the user has to assign the subnet mask in this c
44. g YES 128 Force Enabled SS PTP 10 YES 128 Force Enabled SS Gana FRPS 6 15 2 3 Remember to press Apply 6 15 1 4 Save setting CIST Settings Bridge Configuration VLANS Unmapped VLANs are mapped to the CIST here Priority 92 60 Port Configuration Port NO Enable STF Path Cost Priority Edge Mode P2P Mode Part 1 YES 0 128 Force Enabled Force Enabled Fot 2 YES 0 126 Force Enabled Force Enabled Port 3 VES 128 Farce Enabled Force Enabled Port 4 YES 128 Force Enabled Force Enabled 92 6 15 3 CIST Settings B 6 15 3 1 Bridge configuration VLANs Mapped The list of VLANs mapped to the MSTI The VLANs must be separated with comma and or space A VLAN can only be mapped to one MSTI An unused MSTI should just be left empty l e not having any VLANs mapped to it Unmapped VLANs are mapped to the CIST The default bridge instance Bridge Priority Control the bridge priority Lower numeric values have better priority The bridge priority plus the MSTI instance number concatenated with the 6 byte MAC address of the switch forms a Bridge Identifier B 6 15 3 2 Port Port No The switch port number of the logical STP port Enabled STP Control whether STP is enabled on this switch port Path Cost Controls the path cost incurred by the port The Auto setting will set the path cost as appropriate by the physical link speed using the 802 1D recommended values Using the Specific setting a user defined value can be ente
45. gt info Parameter N A Description display the LLDP information of neighbor port Example 123 LLDP gt 1nfo LLDP gt Localport ChassisID PortID PortDescription SystemN 3 2 Command LLDP gt statistics Parameter N A Description display the detail information of LLDP settings Example LLDP gt statistics LLDP gt Total LLDP traffic lotal entries added lotal entries deleted Total entries aged 0 Total frames out 6127 Total frames in Q Total frames received in error 0 total frames discarded 0 Total ILVs discarded 0 total ILVs unrecognized O Localport Frames In Frame sQu 3 3 Port Command port Parameter N A Description Enter the port mode Example 124 gt por t Avallable Commands Port Configuration port list gt Port Status port list Port Enabled lt port list enableldisable Port Description port list string Port Speed port list l1Ohdxl 1Of dx I I OOhd3 Port FlowControl lt port list lenableldisa Port IngressRate port list lt rate gt kbps Port EgressRate port list gt lt rate gt kbps Port Statistics clear 3 3 1 Command port gt configuration Parameter N A Description display the setting of each port Example POR confisuration enabled Description speed Conti Flow Control Cor l 2 2 3 3 4 4 5 5 6 6 7 7 3 3 2 Command port gt status Parameter N A Description display the conn
46. he Industrial switch s hardware spec port cabling information and wiring installation 2 1 Physical Dimension Metal case IP 30 440 W x 280 D x 44 H mm IPES 3424DSFP IES 3424DSFP 2 2 IP Protection The IP Code Ingress Protection Rating sometimes also interpreted as International Protection Rating classifies and rates the degree of protection provided against the intrusion including body parts such as hands and fingers dust accidental contact and water in mechanical casings and with electrical enclosures It is published by the International Electrotechnical Commission IEC Solid particle protection The first digit indicates the level of protection that the enclosure provides against access to hazardous parts e g electrical conductors moving parts and the ingress of solid foreign objects Object size Level Effective against protected against 0 No protection against contact and ingress of objects Any large surface of the body such as the back of a 1 gt 50 mm hand but no protection against deliberate contact with a body part 2 gt 12 5 mm Fingers or similar objects 3 gt 2 5 mm Tools thick wires etc 4 gt 1 mm Most wires screws etc Ingress of dust is not entirely prevented but it must not enter in sufficient quantity to interfere with the 5 Dust protected satisfactory operation of the equipment complete protection against contact No
47. he default criteria clock quality clock class etc for best master clock selection Lower values take precedence The range for both is from 0 to 255 The default is 255 B Priority2 Specify a priority2 value to be used as a tie breaker between two devices that are otherwise equally matched in the default criteria For example you can use priority2 value to give a specific switch priority over other identical switches The range for both is from 0 to 255 The default is 255 B Announce Interval Specify the time for sending announce messages The range is 0 to 4 seconds The default is 1 2 seconds B Announce Interval Timeout specify the time for announcing timeout messages The range is 2 to 10 seconds The default is 2 4 seconds B Sync Interval enter the time for sending synchronization messages The range is 1 second to 1 second The default is 1 second B Delay Request Interval specify the time recommended to the member devices to send delay request messages when the port is in the master state The range is 1 second to 6 seconds The default is 1 2 seconds 100 6 18 G 8032 ERPS Node Failure ID Enabled Role Type Ring Porto Ring Port 1 Protection Ka Apply ERPS specifies protection switching mechanisms and a protocol for Ethernet layer network rings Ethernet Rings can provide wide area multipoint connectivity more economically due to their reduced number of links The mechanisms and protocol defin
48. ial and IP Networks Enter username and password to continue E Login screen 31 6 4 System 6 4 1 System Identification Configuration Name An administratively assigned name for this managed switch By convention this is the node s fully qualified domain name A domain name is a text string drawn from the alphabet A Z digits 0 9 minus sign No space characters are permitted as part of aname The first or last character must not be a minus sign The allowed String length is 0 to 255 Description Display the description of switch The allowed string length is 0 to 255 Location The physical location of this node e g telephone closet 3rd floor The allowed string length is 0 to 255 and the allowed content is the ASCII characters from 32 to 126 Contact The textual identification of the contact person for this managed node together with information on how to contact this person The allowed string length is 0 to 255 and the allowed content is the ASCII characters from 32 to 126 Mame The Switch Description Current used Location Taiwan Taipei Contact Engineer 32 6 4 2 Switch Information User can find 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 Identification Mame The Switch Description Current used Location Taiwan Taipei Contact Engineer Information D
49. ics B PING Address Set the IP address which you want to ping Count Set the times of Ping Packet Size set the size of Ping packet bild ARP Tabe Address 192 168 9 1 Count A Packet Size h NE EE Taas SS ES ENE ler BEDS zy des F2 bytes from 132 158 3 1 seg 0 til 255 time 0 045 ms 72 bytes from 192 168 9 1 seg 1 ttl 255 time 0 429 ms 72 bytes from 192 168 9 1 seg 2 ttl 255 time 0 420 ms 72 bytes from 192 168 9 1 seq 3 ttl 255 time 0 417 ms 192 168 9 1 ping statistics 4 packets transmitted 4 packets received 0 packet loss round trip minzava max 0 4172 3260 6 046 ms 109 B ARP Table You can find the MAC address of each IP you have ping via this switch in here bild ARP Tabk ARP Table 00 1f ce 3d Ze be 192 168 9 47 00 50 7f oa Ze bp 192 168 9 1 B DDM You can monitor the status of SFP module via DDM function Note Only the SFP module which support DDM spe can offer the DDM information via switch Ping ARP Table D Dh SFP Digital Diagnostic Monitor Hide Thresholds Event Setup Port 9 Link Down Type Temperature Vec Bias TX Power RX Power High Alarm TE n a s 0 0 m dBm dBm High Varning DIRE 00 00 mA 0 dem 2 dBm Current Value 0 0 C 0 0 V 0 0 mA dBm dBm Low Varning ELI EE 00 0 0 m c dam d m Low Alarm UU ODO 0 0 m dem dem 110 Hide Thresholds hide the thresholds information and only display the status information SFP Digital Diagnostic
50. k of time always Factory reset button to restore back to factory default settings Watch dog design can reboot switch automatically when CPU is found dead 19 Metal case IP 30 440mm W x280mm D x44mm H 09079596 Non condensing Standard 20 C 60 C Extended temperature 40 C 75 C 40 C 85 C FCC Class A CE EN61000 4 2 ESD CE EN61000 4 3 RS CE EN 61000 4 4 EFT CE EN61000 4 5 Surge CE EN61000 4 6 CS CE EN61000 4 8 CE EN61000 4 1 1 CE EN61000 4 12 CE EN61000 6 2 CE EN61000 6 4 IEC60068 2 32 Free fall IEC60068 2 27 Shock IEC60068 2 6 Vibration IEC60870 2 2 IEC60068 2 30 5 years SNMP v1 v2c v3 Web Telnet CLI Management RFC 1215 Traps MIB RFC 1213 MIBII RFC 1158 MIDI RFC 1157 SNMP MIB 3 RFC 1493 Bridge MIB RFC 1573 IF MIB RFC 2674 VLAN MIB Partial RFC 1643 EtherLike Partial RFC 1757 RMON RFC 2674 Q Bridge MIB RFC 2790 Host Resource MIB LLDP MIB RSTP MIB Private MIB Port based VLAN up to 28 groups IEEE802 1Q Tag VLAN Static VLAN groups up to 256 Dynamic VLAN group up to 2048 VLAN ID from 1 to 4096 GVRP up to 256 groups GMRP MultiCast VLAN Registration QinQ LACP Port Trunk 4 Trunk groups Maximum 4 trunk members with failover Support LLDP to allow switch to advise its identification and capability on the LAN Cisco Discovery protocol for topology mapping Support ITU G 8032 v2 for Ring protection in less than 20ms for self heal recovery B
51. leads towards the Layer 3 multicast device or IGMP querior If an aggregation member port is selected as a router port the whole aggregation will act as a router port B Fast Leave Enable the fast leave on the port 87 Statistics LAH ID Status GQuerier Guerier Trans mitted Guerier Received Vi Reports Received v2 Reports Received VS Reports Received v2 Leave Received 0 true 0 D D 0 0 0 ISMP Groups false 6 14 2 IGMP Snooping Status 6 14 2 1 Statistics B VLAN ID The VLAN ID of the entry B Status Querior Shows the Querior status is ACTIVE or IDLE DISABLE denotes the specific interface is administratively disabled B Queries Transmitted The number of Transmitted Queries B Queries Received The number of Received Queries B Vi Reports Received The number of Received V1 Reports B V2 Reports Received The number of Received V2 Reports 88 B V3 Reports Received The number of Received V3 Reports B V2 Leaves Received The number of Received V2 Leaves B IGMP Groups Entries in the IGMP Group Table are shown on this page B VLAN ID VLAN ID of the group B Multicast Addresses Group address of the group displayed B Port Members Ports under this group B Membership Interval The group hold aging out TTL 89 Mode MSTP KE Revision Max Age 20 Forward Delay 15 Mas Hops 20 Apply 6 15 MSTP The section describes that how to configure the Spanning Tre
52. mm nozzle against the enclosure from any direction shall have no harmful effects Immersion Ingress of water in harmful up to 1m quantity shall not be possible when the enclosure is immersed In water under defined conditions of pressure and time up to 1 mof submersion Immersion The equipment is suitable beyond 1 m for continuous immersion in water under conditions which shall be specified by the manufacturer Normally this will mean that the equipment is hermetically sealed However with certain types of equipment it can mean that water can enter but only in such a manner that it produces no harmful effects Powerful Protected against close high range high pressure high temperature temperature spray downs water jets 3 minutes Water volume 100 litres per minute Pressure 100 kPa at distance of 3 m Test duration 30 minutes Immersion at depth of at least 1 m measured at bottom of device and at least 15 cm measured at top of device Test duration continuous immersion in water Depth specified by manufacturer 2 3 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 DEB LEE BL EE The switch unit is owner switch of ITU Ring Green The switch is not owner switch PWR1 Green PWR
53. n Control Protocol LACP IEEE 802 1AB Link Layer Discovery Protocol LLDP IEEE 802 1x User Authentication Radius IEEE 802 3t af Power Over Ethernet IPES 3424 1 Back plane Switching Fabric 10 4Gbps 14 880pps for Ethernet port 148 800pps for Fast Ethernet port 1 488 000pps for Gigabit Ethernet port Marvell 800Mhz 256M Byte 128M Byte 16K MAC address table 10KB RJ 45 port 1 24 support PoE at af End point Alternative A mode Per port provides up to 30W Q54V capability Positive VCC RJ 45 pin 1 2 Negative VCC RJ 45 pin 3 6 Input V Active Mode A Output V 45 56V af 48V 15W 54 56V at 54V 30W 24 10 100T X RJ 45 with auto MDI MDI X function 4 100M 1000M Mini GBIC SFP sockets RS 232 console Female DB 9 USB for automatic backup and restore Conform to SFF 8472 to show diagnostic SFP with temperature current voltage input and output power CSMA CD Per unit Power 1 Green Power 2 Green Alarm Red R M Green Link Activity Green Full duplex collision Yellow MINI GBIC Link Activity Green 9 5 60VDC input DC relay contact for switch system Full load 30W Unload 13W 720W Provides one relay output for port breakdown power fail and alarm Alarm Relay current carry ability 1A DC24V 2 Digital Input DI Level 0 30 2V Level 1 10 30V Max input current 8mA 2 Digital Output DO Open collector to 40 VDC 200mA RTC Real Time Clock to keep trac
54. nd and receive multicast data to and from the multicast VLAN are called MVR source ports B VLAN ID Specify the Multicast VLAN ID m Multicast Addresses Multicast Addresses of the group displayed B Port Members Ports under this group VLAN ID Multicast Address Fort Members Port1 x 76 Enabled Mi TXInterval secs 10 Part NO Fort ID Mode 1 1 Both d 2 Both 6 12 LLDP Link Layer Discovery Protocol LLDP is defined in the IEEE802 1AB itis an emerging standard which provides a solution for the configuration issues caused by expanding LANs LLDP specifically defines a standard method for Ethernetnetwork 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 LLDPruns 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 6 12 1 LLDP Configuration m Enabled Enabled The switch will send out LLDP information and will analyze LLDP information received from neighbours B Tx Interval The switch periodically transmits LLDP frames to its neighbours for having the network discovery information up to date The interval between each LLDP frame is determined by the Tx Interval value Valid values are restricted to 5 32768 seconds The LLDP port settings relate to the currently selected stack unit as reflect
55. nitored source ports will be duplicated into mirror destination port m Destination You can set which switch port will be responsible for collecting the data which was duplicated from the source port B Mirrpr From You can set which switch port will be duplicated then send to the destination port Note1 All the duplicated data of the source port can be separated with RX and TX if you want to collect multi source ports at the same time you can assign the Tx of one destination port to be responsible for collecting all the Tx data of source ports and assign another RX of destination port to be responsible for collecting all the Rx data of source ports B And then click Apply button 56 Port Ingress 1 Unicast Multicast Broadcast 0 Unicast Multicast Broadcast 0 6 6 5 Rate Limiting n3 You can set up every port s bandwidth rate and frame limitation type All the ports support port egress rate control For example assume port 1 is 10Mbps users can set its effective egress rate is 1Mbps ingress rate is 500Kbps The switch performs the ingress rate by packet counter to meet the specified rate m Click Apply to apply the settings 57 6 6 6 Loop Protection Loop Protection Contig Status Enable Loop Protection Le Interval 1 Shutdown 60 Le The loop Protection is used to detect the presence of traffic When switch receives packet s looping detection frame MAC address the same as
56. olumn 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 1 254 B DNS Server IP Assign the primary DNS IP address B Andthen click Apply DHCP client C IP Address 192 165 16 1 IP 5 Address Network Mask 299 295 255 0 Default Gateway 192 165 156 294 DNS Server IP Hp Apply 6 4 4 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 34 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 manage 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 DHCP Server Enable or Disable the DHCP Server function Enable the switch will be the DHCP server on your local network IP Range up Type in an IP address Low IP
57. onal 9 12 D44 3 84 very Low power 2 Gptional 17 20 3 04 6 44 Low power 3 Optional 26 30 6 49 12 95 Mid power valid for 802 Sat Type 2 devices Jb dd 12 95 25 50 High power nat allawed for 802 Aaf devices Note 802 3af send 15 4W receive 12 95W 48VDC 802 3at send 30 0W receive 25 50W 54VDC Standard IEEE 802 3at Standard IEEE 802 3af CLASS PSE W s double power UPoE HE ETTE L3 4 Pape 03 7 bal eg wa 3 4 61 6 7 3 Detection The PoE detection function is to detect whether the connected PD is still alive by pinging the IP address Should the PD is not responding the switch can be set for consequence action such as rebooting PD etc Note The PD must have IP address F Ports Ho Enabled IP address Interval Retry Time Failure Log Failure Action Reboot Time iw 192 188 168 100 30 sec s 1 error 0 total 0 Restart Fori 3 sec s Nothing 2 O 0 0 0 0 30 sects error 0 total 0 Power Down 3 sec sj Power On 3 TC 0 0 0 0 3 See 1 error 0 total 0 3 spp 4 E 0 0 0 0 30 sects 1 error 0 total 0 Nothing 3 sec sj 5 F 0 0 0 0 30 Sects 1 error 0 total 0 Nothing 3 sec s B F 0 0 0 0 30 sects 1 error 0 total 0 Nothing 3 sects 7 0 0 0 0 3D sec s 1 error 0 total 0 Nothing 3 sec s B D 0 0 0 0 30 sec s 1 error 0 total 0 Nothing e 3 sec s B No The number of PoE port B Enabled Enable the PoE port with PoE detection function B
58. oping ER CDP ES MSTP Global Configuration CIST Settings MSTI Settings Bridge Status Port Status Aggregation PTP G ANA FRPS d a 6 15 2 2 Check the sta Port Configuration Port NO g 10 f i NC NO NC NC NC Enable STP on all ports Enable STP v 91 Path Cost d a tus of STP all ports should display Yes Priority Edge Mode 126 Force Enabled 126 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled 128 Force Enabled mn 7 ES Ri TH TH n T m L Tl P2P Mode orce Enabled orce Enabled orce Enabled orce Enabled orce Enabled orce Enabled orce Enabled orce Enabled Security P2P Mode Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled Force Enabled sm VLAN s Port Configuration in Disable STP on all ports MVR Port NO Enable STP x Path Cost Priority Edge Mode LLDP T BR IGMP Snooping 1 VES D 128 Force Enabled CDP 2 YES o 128 Force Enabled BB MSTP 3 YES 0 128 Force Enabled Eeer 4 YES D 128 Force Enabled HET SENGS 5 YES 128 Force Enabled MSTI Settings 6 YES 128 Force Enabled Bridge Status 7 YES 128 Force Enabled Port Status 8 YES 0 128 Force Enabled SS Aggregation
59. ort with specified packet Example 128 3 3 8 Command port gt egressrate Parameter lt port_list gt gt choose which port you want to set the ingress rate rate kbps set the ingress rate Description set the egress rate of the dedicated port Example 3 3 9 Command port gt statistics Parameter N A Description display the detail information of port statistics Example 129 Ixgoodbyte Txgoodpkts Txmcpkts Txbrdepkts Ixerr Txucpkts Txmultiplepkts Ixdeferredpkts le quere sie ane Rxbadbyte Rxgoodpkts Rxbadpkts Rxbrdecpkts Rxmcpkts Rxmacerror Rxbadfc Rxucpkts Rxunrecosentr kxgoodte 64byte 130
60. orti ID the ID of Dual Homing connection Enable enable the Dual Homing function of this port Role there should be 2 connections between RSTP with ITU Ring one set Primary the other set Secondary Port The port which connect to the switch which running RSTP protocol 106 6 20 Maintenance 6 20 1 Save Configuration Save setting of switch 6 20 2 Config backup restore B Settings Backup You can download the backup configuration of the switch B Settings Restore You can copy the backup configuration of the switch to the startup configuration on this page The new startup configuration is not available immediately which means that restart the switch is necessary B Reset to default 107 You can reset the configuration of the switch on this page Only the IP configuration is retained The new configuration is available immediately which means that no Settings Backup Click button to download current settings Download settings Settings Restore select the file previously backup to restore Reset to default Click button ta reset to default settings Restore to default Keep IP amp Account H res tart is necessary 6 20 3 Restart device Reboot the switch with selected firmware Firmware 1 Firmware 2 Restart Device 108 6 20 4 Firmware Upgrade Update the switch with the firmware file which on your desktop Select the firmwire file ta upload 6 20 5 Diagnost
61. ower 2 2 Tighten the wire clamp screws for preventing the wires from loosing 3 Insert DC power wires into the contacts and for power 3 for PoE Only for IPES 3424DSFP PoE Power Input V V 50 56VDC 10A be 4 Tighten the wire clamp screws for preventing the wires from loosing 15 NOTE The wire gauge for the terminal block should be in the range between 12 24 AWG 3 3 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 ip e E m EE NOTE The wire gauge for the terminal block should be in the range between 12 24 AWG Industrial Switch The closed circuit will open when the failure occurs 3 4 Cabling B 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 use9 125 um single mode fiber cable User can connect two devices in the distance up to 30km B Fiber segment using multi mode connector type must use 50 or 62 5 125 um multi mode fi
62. pears First you need to key in admin default value for both User name and Password use Enter key to switch then press 112 Enter and the Main Menu of console management appears Please see below figure for login screen m LE LI HELL Lantech 2015 losin cli Last login Fri Jun 21 06 15 11 on pts 0 Login admin Password cur login admin Welcome to Command Line Intertace gt Notice if you forgot the password you can access the switch via console port and input lantech lantech to restore the password to default 113 2 Access via Telnet Use Telnet utility to access switch IP and make sure the socket was set as 23 all the commands under Telnet mode were the same as the Console mode Protocol TCE TCP Parameters Type 9 Client f Server IF version Di Host name Liest IP 182 168 161 Dest port Local part LU for anw 3 Commands 3 1 System Command system Parameter N A Description Enter the system mode Example 114 gt system Available Commands system system system sys tem sys tem sys tem System System System System System System System System System System System System System System Configuration Contact cont Name lt name gt Location loci Description lt Is OL OBEN Leni DHCPServer eni DHCPStatus NetStatus NetSet ting Pv4 NetSettingIPv6 Reboot RestoreDefault Log Save Ping lt I pAddr g
63. red The path cost is used when establishing the active topology of the network Lower path cost ports are chosen as forwarding ports in favour of higher path cost ports Valid values are in the range 1 to 200000000 Priority Control the port priority This can be used to control priority of ports having identical port cost See above edge mode 93 Control whether the oper Edge flag should start as being set or cleared The initial oper Edge state when a port is initialized Control whether the bridge should enable automatic edge detection on the bridge port This allows oper Edge to be derived from whether BPDU s are received on the port or not p2p mode Description Controls whether the port connects to a point to point LAN rather than a shared medium This can be automatically determined or forced either true or false Transition to the forwarding state is faster for point to point LANs than for shared media Instance NO VLANs Priority 6 15 4 MSTP MSTI Settings Instance No VLANs The list of VLANs mapped to the MSTI The VLANs must be separated with comma and or space A VLAN can only be mapped to one MSTI An unused MSTI should just be left empty l e not having any VLANs mapped to it Unmapped VLANs are mapped to the CIST The default bridge instance Priority Control the bridge priority Lower numeric values have better priority The bridge priority plus the MSTI instance number concatenated with the 6
64. require a new entry in the table when the Chassis ID or Remote Port ID is not already contained within the table Entries are removed from the table when a given port s link is down an LLDP shutdown frame is received or when the entry ages out 80 m Frames Received In Error The number of received LLDP frames containing some kind of error B Frames In The number of LLDP frames received on the port B Frames Out The number of LLDP frames transmitted on the port B TLVs Discarded Each LLDP frame can contain multiple pieces of information known as TL Vs TLV is short for Type Length Value If a TLV is malformed it is counted and discarded TLVs Unrecognized The number of well formed TL Vs but with an unknown type value B Ports The displayed table contains a row for each port The columns hold the following information B Port The port on which LLDP frames are received or transmitted B Neighbors Aged Out Shows the number of entries deleted due to Time To Live expiring B Neighbors Added Shows the number of new entries added since switch reboot B Neighbors Deleted Shows the number of new entries deleted since switch reboot B Frames Discarded If an LLDP frame is received on a port and the switch s internal table has run full the LLDP frame is counted and discarded This situation is known as Too Many Neighbors in the LLDP standard LLDP frames require a new entry in the table when the Chassis ID or Remote Port
65. rized intruder 802 1X access control for port based and MAC based authentication Account permission access control 256 Policy based Access Control List MAG Port binding SSL SSH for Management TACACS for Management Authentication B Miss wiring avoidance B Repowered auto ring restore node failure protection Future Release Optional Loop protection PoE Detection to check if PD is hang up then restart the PD m PoE Scheduling to On OFF PD upon routine time table m Per port PoE status including voltage current watt and PoE temperature Support Flow Control for Full duplex and Back Pressure for Half duplex Support System log record and remote system log server Support SMTP Server and 6 e mail accounts for receiving event alert Can send alert via mobile SMS text Up to 3 Trap stations Cold start Port link up Port link down Authentication Failure Private Trap for power status DI DO open close PoE port event environmental monitoring Provide DHCP Client DHCP Server DHCP Option 82 Port based amp VLAN based DHCP distribution DHCP relay agent Provide DNS client feature and support Primary and Secondary DNS server Support SNTP to synchronize system clock in Internet Support TFTP HTTP firmware update InstaConfig mass firmware upgrade Support text backup and restore USB for edited restoration and auto backup Optional DDM SFP required Chapter 2 Hardware Description In this paragraph it will describe t
66. rosoft 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 Preparing 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 admin Password admin 30 6 3 System Login 1 Launch the Internet Explorer on the PC the switch also support Mozila and Chrome browser 2 Key in http the IP address of the switch and then Press Enter File Edit View Favorites Tools Help Babess f e192 160 16 00000 The login screen will appear right after Key in the user name and password The default user name and password are the same as admin 5 Press Enter or click the OK button and then the home screen of the Web based management appears 6 The switch also support SSL security login if you need SSL to protect your access account of switch please key in https the IP address of switch and press Enter CE https 192 168 16 140gin Lantech Pioneering Industr
67. rt fail or power fail DOO DO 1 will switch the output voltage from high to low 43 Switch The Alarm will be triggered alter receiving the high or low signal Open high or 1 Closed low or Q HENEED 1 1 GL EE I 11 1 mmm 1 mm Controlled by Switch e Digital Output only support open collector design if you want to connect DO with Alarm device please use external power supply 6 4 9 Environment Monitoring You can see the hardware status of switch in here Notice This function was optional if you are interesting about this please contact the sales window Input Voltage Current Power Consumption Ambient Temperature i 114 96 amp 5 38 System Utilization You can see the using rate of switch CPU and memory 44 System Utilization 100 E cru Memory DU B 40 20 6 5 Event amp Log 45 hw Login f Boot MW ODOM WM DIN f Link Change Jk Power ef 22nd 9 56 02 am Link Change Phypart 7 linkCha down e 22nd 39 47 33 am Link Change Fhyparti filinkehg up e 22nd 9 47 33 am Link Change Phyport2 JinkChg up e 22nd 29 47 31 am Boot System Bootup ef 22nd 9 47 08 am Link Change Phyporti2 linkChg up 22nd 9 46 59 am Link Change Fhypartiz linkChg down e 22nd 9 46 43 am Link Change Phyport2 JinkChg up e 22nd 9 46 41 am Boot System Bootup ef 22nd 9 45 21 am Link Change Phyporti2 linkChg up 6 5 1 View Logs m This will show you the log in local interface
68. s B Tx Holdtime secs Each CDP frame contains information about how long the information in the CDP frame shall be considered valid The holdtime between each CDP frame is determined by the Tx Holdtime value Valid values are restricted to 5 32768 seconds 83 6 13 2 CDP Port Configuration B Port The switch port number of the logical CDP port B Enabled The switch will send out CDP information and will analyze CDP information received from neighbors Statistics Total Fackets Output Total Fackets Input DU H Neighbors Local Port NO COP version Ageout TTL Device ID Flatfor m Software version Addresses 6 13 3 CDP Status B Statistics Total Packets Output The number of CDP frames transmitted on the switch Total Packets Input The number of CDP frames received on the switch B Neighbors The displayed table contains a row for each port on which an CDP neighbour is detected The columns hold the following information Local Port The port on which the CDP frame was received 84 Version Version is the CDP version advertised by the neighbor unit Ageout TTL Ageout TTL is the ageout Time To Live advertised by the neighbor unit Device ID The Device ID is the identification of the neighbor s CDP frames Platform Platform is the description advertised by the neighbor unit Software Version software Version is the software version advertised by the neighbor unit Addresses Addresses is the neigh
69. s DEDE EODD Cc Env 77 6 12 2 LLDP Neighbor sees 78 6 12 3 LLDP Statistics essccossnsncsesasnsessesnosesccdecedecceacceccadas 80 PN 83 6 13 1 CDP Configuration Device Settings 83 6 13 2 CDP Port Configuration cccssseeeeseeeeeeeeeees 84 6 13 3 CDP E E 84 6 14 IGMP Snooping onnenonennonnnnnnonnnnnnnennnnnnsnnnnne 86 6 14 1 IGMP Snooping Confguraton 87 6 14 2 IGMP Snooping E EE 88 HSE 90 6 15 1 MSTP Global Configuration 90 6 15 2 How to enable MSTP cccccccececececececeeees 91 6 15 3 CIST Seittngs 93 6 15 3 1 Bridge configuration 93 B 1 E Ge 93 6 15 4 MSTP MSTI Settings rrnnnnnnnnnnnnnnnnnnnnnvnnnnnn 94 6 15 5 MSTP Bridges SIalUS vare 95 6 15 6 Bridge status of all ports 96 Ze ele Ed Le EE 97 6 16 1 Aggregation Configuration 97 6162 LAGP POT ECH EE 98 OI PIP EEE NNN 99 6 18 GN ERF Saera 101 6 18 1 G 8032 Ethernet Ring Protection Configuration101 6 18 2 How to set ERPS G 8032 102 6 19 Dual Homing 105 6 20 Maintenance 107 6 20 1 Save Configuration rrrrnnrrrrrnnrrorrnnnenrnnnernnnnn 107 6 20 2 Config backuprrestore 107 6 20 3 Restart device 108 6 20 4 Firmware Upgrade
70. s are 1 Other 2 Repeater 3 Bridge 4 WLAN Access Point 5 Router 6 Telephone 7 DOCSIS cable device 8 Station only 9 Reserved When a capability is enabled the capability is followed by If the capability is disabled the capability is followed by B Management Address Management Address is the neighbor unit s address that is used for higher layer entities to assist discovery by the network management This could for instance hold the neighbor s IP address 19 Total Neighbors Aged Out Heighbors Add Neighbors Delete Frames Discarded Frames Received In Error Frames In Frames Out TL s Discarded TLYs Unrecagnizeds 0 0 O 0 0 Ports 0 o 0 D 0 0 0 0 0 2 0 o 0 D 0 0 0 0 1 6 12 3 LLDP Statistics This page provides an overview of all LLDP traffic Two types of counters are shown Total are counters that refer to the whole stack switch while Port refer to per port counters for the currently selected switch 6 12 3 1 Total B Neighbours Aged Out Shows the number of entries deleted due to Time To Live expiring B Neighbours Added Shows the number of new entries added since switch reboot B Neighbours Deleted Shows the number of new entries deleted since switch reboot B Frames Discarded If an LLDP frame is received on a port and the switch s internal table has run full the LLDP frame is counted and discarded This situation is known as Too Many Neighbours in the LLDP standard LLDP frames
71. sign the port which you want to enable the ACL function B Direction let the switch check the destination address or source address of packet m Address assign the IP address which you want to deny m Mask set the mask to filter the IP range No Fort Direction Address Mask Action Port 1 SOUrce 132 158 15 1 295 255 255 Deny 70 6 10 3 IEEE 802 1X Radius Server 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 After enabling the IEEE 802 1X function you can configure the parameters of this function B Server IP Assign the RADIUS Server IP address m Server Port Set the UDP destination port for authentication requests to the specified RADIUS Server m 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 m NAS Identifier Set the identifier for the RADIUS client m Enable on Ports Enable or disable 802 1x protocol 71 Enable IP Security Apply 6 10 4 IP Security IP security function allows user to assign 20 specific IP addresses that have permission to access the switch through the web browser for the securing switch management m Enable IP Security When this option
72. t Arp Memory ConfigAccess Upgrade URL SYSTEM gt _ 3 1 1 Command system configuration Parameter N A Description show the information of switch Example SYSTEM gt conf 1gurat10n SYS TEM gt sys temName systemDescription sys temLocation systemContact systemlimeZoneOt set OID MacAddr systemDate sys temUptime softwa 13 Q TES 5408DSFP 4 1000 SFP 1 3 6 1 4 1 37072 302 2 3 A SW 41141 rekernelVersion ae fi ex as p d 00 11 22 353 44 81 bri Jun 21 2013 15 39c4 amp c 115 C F 3 1 2 Command system gt Contact Parameter N A Description display or fix the contact information Example if want to change the contact windows to jacky lantechcom tw SYSTEM gt contact jacky lantechcom tw SYSTEM gt SystemContact jacky lantechcom tw 3 1 3 Command system gt name Parameter N A Description display or fix the system name Example SYSTEM gt name SYSTEM gt SystemName IES 5408DSFP SYSTEM gt name IGS 5400 2P SYSTEM gt SystemName IGS 5400 2P 3 1 4 Command system gt location Parameter N A Description display or fix the location Example SYSTEM gt location DA SsystemLocation 13 SYSTEM gt location Taiwan SYSTEM gt systemLocation laiwan 3 1 5 Command system description Parameter N A Description display or fix the system description Example SYS TEM gt systemDescription switch SYSTEM gt
73. t 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 7 When all connections are set and LED lights all show in normal the installation is complete 3 1 Rack Mounting When installing the I P JES 3424DSFP switch in a 19 inch rack it must always be mounted horizontally with the top side up This procedure requires the following items m Eight bracket screws included with the switch m Iwo equipment rack brackets included with the switch m Cross head screwdriver not provided m Four standard equipment rack screws not provided Perform this procedure to install the switch in a 19 inch equipment rack 1 Secure the two rack mount brackets to the sides of the switch using the eight bracket screws provided 2 Have another person hold the switch in the equipment rack while you secure it using standard rack mount screws not provided 14 3 2 Wiring the Power Inputs 1 2 3 440 d LEE fC LI Na O O O O Power input for switch system Power input for PoE budget Please follow the steps below to insert the power wire Note The input power of PoE of IPES 3424DSFP power input 3 is separated with power of switch system power input 1 and 2 e The power input module 2 is optional part 1 Insert DC power wires into the contacts and for power 1 or and 1 for p
74. t set DNS server Description set the IP detail of switch Example SYSTEM gt netsettinglPv4 SYSTEM gt 192 168 16 1 ask 255 255 255 0 GatewavIp 192 168 9 1 DnsIp 168 95 1 1 3 1 11 Command system gt netsettingIPv6 Parameter N A Description set the IP address of IPv6 Example SYSTEM gt netsettingIPv6 SYSTEM gt IpAddrv6 2001 0db8 0 f101 2 118 3 1 12 Command system gt reboot Parameter N A Description reboot the switch Example SYSTEM gt reboot SYSIEM gt System Reboot atter I sec Broadcast message from root Fri Jun 21 17 The system 1s going down for reboot NOW 3 1 13 Command system gt restoredefault Parameter keep none gt restore all setting keep all gt restore all but keep original IP address and account keep ip gt restore all but keep original IP address keep account gt restore all but keep original account Description restore the setting of switch to factory default Example SYSTEM gt restoredefault Invalid parameter Syntax System RestoreDefault keep none keep all keep_ip keep account 3 1 14 Command system gt log Parameter N A Description display the event log Example Jun 2013 03 4 GMT linkcheg Jun 201 il GMT linkchg Jun 2013 05 37 40 GMI boot Jun 2015 06 04 23 GMI auth Jun 2015 06 15 GM I auth 3 1 15 Command system gt save Parameter N A Description save the fixed setting Example 119 SYSTEM gt save
75. tatus of each port is listed beneath Port No The port number which you want to be configured Type Current port state Description Port description Enables enable disable the switch port Flow Control Whether or not the receiving node sends feedback to the sending node is determined by this item When enabled once thedevice 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 Speed lican be set as auto or set speed and negotiated way manually Click Apply to have the configuration take effect 54 Port Status Port No Type Link State Speed Flow Control 1 100TX up Enable 100 Full Disable 2 100TX down Enable N A N A 6 6 2 Status It will show you the status of port configuration setting RENE ge i C cC c c LLL AC I d Help ES Log Messag adm ecce trece Oc eU ERUIT eU I ge EE Type Link State TX Good TX Bad RX Good RX Bad TX Abort Collision Drop RX BCAST RX MCAST TX MCAST DSFP Down Enable 0 0 0 0 0 0 0 0 0 0 ISFP Down Enable 0 0 0 0 0 0 0 ISFP Down Enable 0 0 0 0 0 0 0 ISFP Down Enable 0 0 0 0 0 0 0 0 0 0 6 6 3 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 impl
76. to re learn a device s MAC address when the disconnected or powered off device is active on the network again You can add modify delete a static MAC address MAC Address Enter the MAC address of the port that should permanently forward traffic regardless of the device network activity VLAN ID Entering the VLAN ID Port No pull down the selection menu to select the port number m MAC Filtering By filtering MAG address the switch can easily filter pre configure MAG address and reduce the un safety You can add and delete filtering MAG address MAC Address Enter the MAG address that you want to filter B All MAC Addresses you can view the port that connected device s MAC address and related device s MAC address 69 6 10 2 Access Control List The switch access control list ACL is probably the most commonly used object in the OSI layer 2 and 3 It is used for access filtering The ACLs are divided into MAC and IP filtering 6 10 2 1 ACL with Layer2 MAC B No The number of ACL record m Port assign the port which you want to enable the ACL function B Direction Let the switch check the destination address or source address of packet Address assign the MAC address which you want to deny Mask set the mask to filter the MAG range No Fort Direction Address Mask Action 1 Fort 1 SCHEER UU DU UU DU UO UU ff ff ff fe ODE DIO Deny 6 10 2 2 ACL with Layer3 IP B No The number of ACL record m Port as
77. trunking group B LACP Yes means that LACP is enabled and the port link is up No means that LACP is not enabled or that the port link is down Backup means that the port could not join the aggregation group but will join if other port leaves Meanwhile it s LACP status is disabled m System ID The ID of each Trunking group B Port Members Each switch port is listed for each group ID Select a radio button to include a port in an aggregation or clear the radio button to remove the port from the aggregation By default no ports belong to any aggregation group Only full duplex ports can join an aggregation and ports must be in the same speed in each group 98 Enable on Domain Priority 1 200 Priority 2 200 Announce Interval 1 Announce Interval Timeout A SynC Interval Delay Request Interval 1 6 17 PTP IEEE 1588 v2 The Precision Time Protocol PTP is a protocol used to synchromize clocks throughout a network where achieves clock accuracy in the 1us range making it suitable for measurement and control systems IEEE 1588 v2 is designed for local systems requiring accuracies beyond those attainable using NTP It is also designed for applications that cannot bear the cost of a GPS receiver at each node or for which GPS signals are inaccessible B Enable on Select which port you want to enable PTP function B Domain Set the PTP domain 99 B Priority1 Specify the priority1 value to override t
78. urday 63 Dj LC CT IET IET HH 6 8 Topology This function can help user to build the network topology drawing automatically for the switches that are in closed looped and show the detail information of each switch node by clicking the icon The topology view drawing can show the backup path with the dot line for overall picture please remember to enable LLDP function before you use this function Warning Please Enable LUD ta see tapolagy status Text ve Graph Vi D Nodes MAC Address IF Links ERES T Stat Rings Topology Status B Text View Display each switch in your network by text The Topology was build with the information from LLDP where can let you see the information from other switches B Nodes show the information of each switch like MAC address and IP address B Links show the information of each connection 64 B Rings show the information from ITU Ring function Tex wiew Gaphic wiew Demo Physical Ring B Graphic View Display each switch connection in the network by graphic You can see the topology diagram which is assorted by the LLDP information m Physical display the physical connection of network B Ring Beside the physical connection also show the information about IT U Ring 65 A A A a mm A fabi G B Demo Demo display each topology in different connection 66 0Qo5 Policy Use weighted fair queuing scheme 4 Priority Type Disabled
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