User's Manual 48-Port Gigabit Web Smart Switch Model No
Contents
1. een eam 2 EN UN a Le oe un ru m RF FFAN THRA FFY FN CR AN FIS ASA FFA YN HF FFON TEDI 21 5308 9 Tree 22 Arnao AAA UR GG O SG GAU GA OG 22 2 0 2 IP T3 er PHOTO AMA A 22 3 6 3 Differentiated Service Code Point DSCP eee 23 VOLEO egi de A SUI ETE T m US 23 30 O naper DI 24 30 0 ACT Priortt y OV C1 cT E O 24 3 0 7 P olicer C onfTeurdtiOfi s opes aid 25 915 5 RBUIDET AA diro iot ote O duda cuu T 26 SX S Ng YNN TAR S 27 23 0 DO TP Blow ID Ionor SEUN rd E E 28 SOs TP FOW TD CONSUL acia 28 5 6 T2 Static Forwarding MAC ii 20 Sea ef Bf Cros din IA a AR GAA RAO SA 30 S 0 ET Mark PUE 3l 2 0 75 Mik enable Cos DS CE iia beta 32 O O A ON 32 ENANA EE EAT 33 SUE SO ER G tasso Y breit tan esten tM weer recat eet 33 3 019 ACT Rule Settlllg xciv I O GRIO READ O UAN A M UAM UE EE 34 D0 20 CS OOS Load sacs UTEM 36 A m Y T TT eas 36 SF uH PE N ER RF A HN FFF RH NN EF TIR 37 Deal NNI NC On LLU HOT Aeon 37 IINK AGGREGATION td 39 3 3 1 Acerecauon COM SUPA OM airoso seee 39 ALARM EC CONDDEGIOUSS WO Noria 40 IT Wrap Events On e UFdllOE eiii iii iia 40 72 Emaus VES CONE SITO Dri 40 O A e tcs 42 SOS a do 11 e EPA CONO E EE cet RW RAN elena T R RAN NW ED NND NN 42 2410 2 Restore Delano 42 A DET 42 SAD GING S PIC S TEUER 43 STELD Oa E dene eee cones 43 SLE LO0pDacK TES baracca i2. EN Port Source Flow Destination There is no forwarding MAC entry Figure 3 18 Static Forwarding MAC Parameter Description MAC MAC setting must be unicast Setting Range 00 00 00 00 00 00 ff ff ff ff ff fe PortNo Setting Range 1 48 Alias AnyUnicodecanbeentered 20 3 6 13 Policer Flow ID Table This section is for IP Flow ID Configuration and MAC Flow ID Configuration to map and decide appropriate Policer Policer Flow ID Table T e D I aisle a 4 Hm SO amp WN e c oc 4 R Apply Figure 3 19 Policer Flow ID Table Parameter Description Source Flow ID Click lt Apply gt to have the setting take effect Setting Range 0 3 Destination Flow ID Click lt Apply gt to have the setting take effect Setting Range 0 3 Setting Range 0 7 There are 0 3 Policer for each Priorities Click lt Apply gt to have the setting take effect 30 3 6 14 Mark Priority In Policer function users can see the Demote capability in Action list When the amount of packets reaches the rate and the action is determined as Demote the queue of ingress port influenced by Policer function the priority will be decided and changed with the setting of Demoted in Mark Priority function Furthermore if the amount of packets doesn t reach the rate of Policer function these packets will be put in the queues decided by Not demoted in Mark Priority function CoS will act on packet
3. Device Port RI45 SFP 4 RAM Size SSS Flash Size 116 M Apply Apply N Fig 3 1 Fig 3 1 System Information 3 1 2 IP Configuration Please ensure all PCs connected to the switch are set to the same IP and subnet range Otherwise the network manager won t be able to manage or view the device The IP of the switch can be manually altered and the device will need to be rebooted for the effect to take place IP Address 192 168 2 2 Default Gateway 192 168 2 253 IDNS Server Manual 0 0 0 0 Fig 3 2 IP Configuration Parameter Description IP address IP settings can be altered when DHCP function is set to Disable Then click lt Apply gt button to update the IP address If DHCP is enabled this field will be inaccessible by user Default 192 168 1 1 DHCP disabled Subnet mask is used for increasing IP addresses in a network since any IP devices in a network need their own IP Ensure that all devices in the same network have the same subnet values Default Gateway Allocate an IP address for a gateway to manage packets that do not meet routing rules predefined by the switch Default 192 168 1 254 DNS Server Domain Name Server acts as a translation between IP address and name address User can specify a DNS IP address for translating a mnemonic name address into an IP address e Fixed Mode user manually specifies IP address Dynamic Mode DHCP server defines the IP address Default
4. 3 18 Logout Users can manually logout in this function Otherwise user can set the time for auto logout in Auto Logout function It could prevent the network administrator from forgetting to logout from Web based UI Turn Auto Logout as OFF and the users will not ever be logged out Logout Press Logout if you want to quit Figure 3 46 Logout Description i Click lt Logout gt button to exit the system straight away Auto Logout Allow users to turn the function on or off If no actions are detected for the set time the switch automatically logout Default On 57 4 Troubleshooting 4 1 Q amp A 1 Resolving no link condition The possible causes of no link condition are as follows V The attached device is not powered on Incorrect type or faulty cable The installed building premise cable is faulty The port may be faulty 2 Computer A can connect to Computer B but cannot connect to Computer C through the Gigabit Web Smart Switch The network device of Computer C may fail to work Please check the link act status of Computer C on the LED indicator Try another network device on this connection The network configuration of Computer C may be incorrect Please verify the network configuration on Computer C 3 The uplink connection function fails to operate The connection ports on other side must be connection ports Please check if connection ports are used on that Gigabit Web Smart Sw
5. Faster and Easier Networks User s Manual 48 Port Gigabit Web Smart Switch Model No SP6148WS http www micronet info Contents 1 INTRODUCTION cuisine 1 IS PACKAGE C ONTEN TS cts 1 LAA UU i hc rece iuum ERR M RIDE UC RD RH RH TR NT 1 EO ERONT PANEL VIE Wei 2 LSTLED aen 61 EE O O OY O Y He YW EE 2 LEEFEAF PANEL VIEW A ON O 3 PIN TALLA HON Gu aa 4 2 1 HARDWARE AND CABLE INSTALLATION cccssscccescccesscecseceenscceseceaesceeaeeceaeceeeeseeas 4 2 1 1 Installing Optional SFP Fiber Transceiver eese 4 2 1 2 Connecting the SFP Module to the Chassis sees 4 24 5 TP Por and Cable Instali Odd 4 PAN ES 0 TE O TF E E 5 2 1 5 Installing Chassis to a 19 Inch Wiring Closet Rail oooocccnncncnnnonncnnnnnnnos 5 2 10 abhine Requiem 5 2 2 CONFIGURING MANAGEMENT AGENT i GG es requis is P e Nd aM UNSER o acer Us 6 2 24 Nie SACO UTA ON ate 6 3 WEB BASED USER INTERFACE isscscsscccccsccsssccssecscssccssescccsesessssesssssssaccac scssesscnssssssse 7 SES VS TEM CON BIG UR TION So 7 Sell Ste IOMA NE ET 7 ANUN M DUDEN 9 9S 1 2 Etre C Onsu Oaa ior 9 Dol ACCOUNT COMI UTA ON AAA AAA 11 5 2 PORTCONFIGURA TION a 13 IPO S a A A c OP DN 13 3 2 2 SIDIDIG COETIR a shot uisa sonda at issu onde Ad 14 A Tee nT FE Re Ton FEU A LEE E eT 15 PASTOR M FEN rr NW T T TNT 18 a LS O CONTO M E TT tos 18 NI ROR cta decada 20 a IO o ENING AO OA gq O OS 20 Soup asec
6. Group Port Group NN 1 Mont y 2 None 3 None A None v y Near 7 10 Far y 11 oar 7 12 Fare y 13 Hone 14 Mene 15 Hone 15 Mone 17 Mone gt 18 None r 19 None 20 None gt 21 None 22 Mone 23 Nome 24 Mone 25 None 26 None 27 None 28 Mens 33 Nene v 34 Meme w 35 Nene gt 35 Mene 37 None 38 Nene 39 None y 40 Nene 45 Hone 465 None A7 Hone AB None Figure 3 27 Link Aggregation Parameter Description Port 1 48 could be chosen as logical group of Link Aggregation Defines the Logical Group for Link Aggregation with L1 L24 available Maximum 8 ports per logical group Click lt Apply gt to have the setting take effect 39 3 9 Alarm Configuration 3 9 1 Trap Events Configuration The Trap Events Configuration function is used to enable the switch to send out the trap information when pre defined trap events occurred The switch offers 5 different trap events for switch management The trap information can be sent out in three ways including email mobile phone SMS short message system and trap The message will be sent when users tick the trap event individually Trap Events Configuration Email Select Unselect All I SMS Select Unselect All T Trap Select Unselect All I EE RN mm Sul Tro z 7 Figure 3 28 Trap Events Configuration 3 9 2 Email SMS Configuration Alarm configuration is used to configure the person who should receive the alarm message via
7. Rule will have higher effect than the higher index of ACL Rule Click lt Apply gt in the ACL QoS Load to have the setting take effect e Press Create button to create ACL Rule e Press Edit button to edit ACL Rule e Press Delete button to delete ACL Rule ACL Rule ACI Number EW ule SECTETUER esti Destination Port Permit Prior G ARP 0 0 0 0 0 0 0 0 0 0 palasak ure Pur 1 655535 Prud psc T IPw4 0 0 0 0 0 192 158 2 2 32 Any 0 655535 D 65535 Deny hone g Any 0 0 0 0 0 0 0 0 0 0 Any 0 65535 0 65535 Allow one Figure 3 23 ACL Rule Parameter Description Rule jAOLnleidec 33 Ethernet packets and is coded as 2 bytes The source of IP address Setting Range 0 0 0 0 255 255 255 255 Destination IP The destination of IP address Setting Range 0 0 0 0 255 255 255 255 Protocol type in packets OSI Layer 4 Port number of source location Source Port Destination Port Setting Range 0 65535 OSI Layer 4 Port number of destination location Setting Range 065535 Indicate whether the packets are allowed access or blocked There are two statuses Allow or Deny Priority 3 6 19 ACL Rule Setting The transmitting precedence For packets conforming to ACL rule with ACL QoS Load and ACL override enabled it will apply this ACL priority The switch supports 0 7 priority After pressing Create button in ACL Rule function ACL Rule setting page will appear on the interface In this page users
8. 255 oO Default gateway Step 3 Select Use the following IP Address button eost ae BE CON ce and then enter the IP address and subnet mask Preferred DNS server CHEN Ensure the IP address and subnet mask are on the acis Si E same subnet as the switch Click on OK button to save the setting Default Values IP Address 192 168 1 1 Subnet Mask 255 255 255 0 Default Gateway 192 168 1 254 Password 3 Web based User Interface SP6148WS is embedded with http sever and provides a series of web pages which display the configuration and status of the system After configuration of IP the management interface can be access by entering the IP address of the switch into the browser The system will prompt the user to enter password for authentication purpose Once password is correctly entered a web page will appear for configuration and management On the left hand side of the browser will contain a menu tree with list of functions Menu is in hierarchical structure and opening the menu will display a sub menu 3 1 System Configuration System configuration is divided into four components and will be explain in details in the upcoming sections oystem Information Time Account 3 1 1 System Information This function will allow users to view system information Parameter Description Model Name The model name of this device a System Description Shows the type of device E g W
9. T Fail Fail 23 Fail Fail 39 Fail Fail 8 Fail Fail 24 Fail Fail 40 Fail Fail g Fail Fail 25 Fail Fail 41 Fail Fail 10 Fail Fail 2D Fail Fail 42 Fail Fail 11 Fail Fail 27 Fail Fail 43 Fail Fail 12 Fail Fail 28 Fail Fail 44 Fail Fail 13 Fail Fail 29 Ok Ok 45 Fail Fail 14 Fail Fail 30 Fail Fail 46 Fail Fail 15 Fail Fail 31 Fail Fail Af Fail Fail 16 Fall Fail 32 Fall Fail 48 Fail Fail Figure 3 31 Loopback Tests 43 3 11 3 Ping Test Ping Test function is a tool for detecting if the target device is active through ICMP protocol which abounds with report messages The switch provides Ping Test function to know if the target device is available Simply fill in a Known IP address and then click lt Ping gt button After few seconds the switch will report the pinged device is active or inactive in Ping Result field Ping Test IP Address 192 168 2 116 Default Gateway 192 168 2 253 Ping Result 192 168 2 116 is alive Figure 3 32 Ping Test Parameter Description IP Address An IP address in the version of v4 E g 192 168 1 1 Default Gateway IP address of the default gateway 44 3 12 TFTP 3 12 1 TFTP Server Specify the IP address where the TFTP server is located Fill in the IP address of TFTP server and click Apply to have the setting take effect TFTP Server Figure 3 33 TFTP Server Parameter Description The field for entering IP address of TFTP server 45 3 13 Log The function shows the l
10. can select suitable settings and press Apply button to create ACL rule Click Apply in the ACL QoS Load to have the setting take effect ACL Rule Setting Co LIMEN Figure 3 24 ACL Rule Setting Parameter EtherType Description ACL rule number There are 1 64 ACL numbers ACL rule index EtherType is used to indicate the protocol type in Ethernet packets and is coded as 2 bytes Users can select EtherType as IPv4 ARP RARP Type 1 Type 2 Type 3 None or Any Type 1 2 3 are determined by users in User Defined function 34 The Source of IP address and IP Prefix IP Range 0 0 0 0 255 255 255 255 IP Prefix Range 0 32 Destination IP The Destination of IP address and IP Prefix IP Range 0 0 0 0 255 255 255 255 IP Prefix Range 0 32 Protocol Protocol type in packets Users can select protocol type as ICMP IGMP TCP UDP Protocol1 Protocol2 Protocol3 None or Any Protocol1 Protocol2 and Protocol are determined by users in User Defined function Source Port OSI Layer 4 Port number of source location would be available for setting when Protocol type is either TCP or UDP Setting Range 0 65535 Destination Port OSI Layer 4 Port number of destination location Setting Range 0 65535 lun blocked There are two statuses Allow or Deny Priority The transmitting precedence For packets conforming to ACL rule with ACL QoS Load and ACL override enabled it will apply this ACL p
11. chassis into the 19 inch wiring closet rail and adjust it to the correct position 2 2 Configuring Management Agent 2 2 1 IP Address Configuration PC Notebook must belong in the same IP range and subnet Follow the steps below to configure IP settings for LAN PC Local Area Connection Properties Step 1 In the control panel double click on Network Connections Double click on the local area connection e g LAN The following screen will appear This connection uses the following items Client For Microsoft Metworks i File and Printer Sharing For Microsoft Networks jm QoS Packet Scheduler Internet Protocol TCP IP Description General Authentication Advanced Transmission Control Pratacnal Intermet Protocol The default Wide area network protocol that provides communication across diverse interconnected networks C Show icon in notification area when connected Noti me when this connection has limited or no connectivity Internet Protocol TCP IP Properties PEE General Step 2 Select Internet Protocol TCP IP and then cl ick on the Properties button The screen wi Il You can get IP settings assigned automatically if your network supports this capability Otherwise you need to ask your network administrator for appear to allow entry of TCP IP settings the appropriate IP settings O Obtain an IP address automatically IP address 1929 168 1 10 Subnet mask 255 255
12. email SMS or both An email address or a mobile phone number has to be set in the alarm configuration This function provides fields for 6 email addresses and 6 mobile phone numbers The 5 different trap events will be sent to SNMP Manager when trap event occurs After ticking trap events users can fill in your desired email addresses and mobile phone numbers Click lt Apply gt to have the setting take effect E m m E a E q Xl lt l E a il Alarm Configuration DIIETUNENM I I ut Passwora M Eman address mall Address 2 M EXE 2 Email Address a moli address 22 NEIN sms server Username EEDD Passwora Y o Mobile Phone EEDD ID Mobile Phone 2 l Mobile Phone NAAA AAA AAA a Figure 3 28 Alarm Configuration 40 A UU M the switch there are 6 trap hosts supported Each of them has its own community name and IP address which is user definable To set up a trap host the trap manager will assign an IP address to host the trap message In other words the trap host is a network management unit with SNMP manager receiving the trap message from the managed switch and SNMP agent issuing the trap message 6 trap hosts can prevent important trap messages from lost For each public trap the switch supports trap events include Cold Start Warm Start Link Down Link Up and Authentication Failur
13. inn 260096 Pas y 3 ioo 260096 Pass v Figure 3 14 Policer Configuration Parameter Description Pot Port 1 48 are available for Policer Configuration bedd iia queues of ingress ports a setting range is 0 100 25 3 6 8 Shaper Setting The burst number of packets for admission to the switch for each Policer and it is in buffer size of Ingress ports Default 260096 bytes Setting Range 2048 260096 bytes There are four actions for Policer Configuration Pass Discard congested Discard and Demote Pass setting will let packets enter the switch successfully on ingress ports regardless of the rate Discard setting is when packets reach the rate setting in Policer Configuration function it will be discarded immediately Discard congested setting refers to the packets that Cause congestion when entering the switch will be discarded Demote setting refers to amount of packets entering the switch reaches the rate the priority of the packets will be decided and changed again in Mark function According to demote setting and the priority of the packets when these ports enable Mark will affect 802 1p CoS and DSCP When packets are passed through the switch Egress Ports packets will be entered into Egress queue and be influenced by limiting rate of the Shaper Configuration Shaper Queue function will determine which egress queue the packet belong Shaper Setting AA Die A
14. will become active All supported MIB OIDs including RMON MIB can be accessed via SNMP manager If the field SNMP is set to Disable SNMP agent will be de activated and the related Community Name Trap Host IP Address Trap and all MIB counters will be ignored 3 7 1 SNMP Configuration This function is used to configure SNMP settings community name trap host and public traps A SNMP manager must pass the authentication by identifying both community names before accessing the MIB information of the target device Both parties must have the same community name Click Apply to have the setting take effect SNMP Configuration ETITIEIUTUENEN o2s 162 community public ETITTIZIUTUEEEEI oos rez community pume ETTTIZIUTCENEMEIo0o0 1062 community pubie ETITYFIUTUENEMG oos 162 community pubie ETITIZIUTCCEEEEMICens 162 community pubie ETITIZIUTCEENMIo5s e2 community public ETIN Figure 3 26 SNMP Configuration Parameter Description The parameter is used for the activation or de activation of SNMP Default Enable 37 Get Set Trap Community Community name is used as password for authentication where the requesting network management unit must belong to a community group The requesting network management unit cannot access the device with different community name via SNMP protocol Community name is user definable with a maximum length of 15 characters and is case sensit
15. 0 0 0 0 3 1 3 Time Configuration The system time can be either manually entered or automatically set via NTP Manual setting allows user to specify the Year Month Day Hour Minute and Second If an invalid input is being assigned the system will automatically alter the value into a valid range 9 NTP is acommon protocol used to synchronize the system time between the switch and network NTP version adopted by the switch is protocol 3 defined in RFC 1305 The switch provides four built in NTP server IP addresses resided in the Internet and allows extra field for user defined NTP server IP address The time zone Is in Greenwich centered format which uses the expression form of GMT xx hours Display the current time of the system Daylight Saving This function allows user to manually specify system time Filling valid values in each field and click lt Apply gt to update the time Default Year 2000 Month 1 Day 1 Hour 0 Minute 0 Second 0 Setting Range Year gt 2000 Month 1 12 Day 1 31 Hour 0 59 Minute 0 59 Second 0 59 Network Time Protocol is used to sync the network time based on Greenwich Mean Time GMT Selecting a built in NTP time server or manually specify a user defined NTP server with Time Zone the switch will sync the time after pressing lt Apply gt button If Time Zone is entered it will offset GMT and calculate the local time accordingly The swit
16. 24 1 default Create VLAN Delete VLAN Edit VLAN 52 Parameter VLAN Name Description The name defined for VLAN group by administrator Valid letters are A Z a z 0 9 and _ characters The maximum length is 15 characters This is used to enable or disable a port for membership of the added VLAN Tick the checkbox beside the port to enable it Port based VLAN group could include physical ports 1 48 or logical ports 1 24 Create a new Port based VLAN Input the VLAN name and select the member by ticking the checkbox beside the port No Click lt Apply gt to have the setting take effect Click lt Delete VLAN gt button to remove the selected group entry from the Port based group table Select a group entry and click lt Edit VLAN gt button to modify a group s description and member set Checkbox of all member ports will become unchecked after lt All Port Unchecked gt is selected All uncheck box of all member ports will become checked after lt All Port Checked gt is selected VLAN ID Member Port Create VLAN Delete VLAN Edit VLAN All Port Unchecked All Port Checked Create VLAN Group DTE wav 2 om ooo mle m ml le a o EI NP m o MES G gt Hm 14 7 15 Ol 16 T ZI UST was r1 D r3 T Dn 26 1 uu gt 8 000 za 1 3m TI a gt O Member Port O 34 0 35 0 36 0 37 0 38 0 38 0 ac S ce eS EI Tar wi Ml ee me eo ml me ey M E WES LI S
17. LAN Port PVID Setting mmm TERRIER tJ ACCESS Y e ACCESS T Mu ACCESS T E M hrpmse LE E ADDE55 El nm ACCEBS5 E Fe ACCESS B hb ta ACCess Y L2 a ADDE55 Li Li ACCESS he Figure 3 44 VLAN Port PVID Setting Description ud i AN Access Access ACCESS T HERE Access Access Access ACCESS T ACCESS m Access Access T ACCESS T Before users set a number x as PVID it is necessary to create a Tag based VLAN with VID x For example if port x receives an untagged packet the switch will apply the PVID assume as VID y of port x and add tag to this packet The packet then will be forwarded as the tagged packet with VID y Setting Range 1 4094 Modes available are Access Private Trunk or Hybrid Click Apply to have the setting take effect 55 dale 3 17 Reboot 3 17 1 Reboot the System To reboot the system click lt RESET gt button on the front panel of the switch It will take around thirty seconds to complete the system boot Reboot the System Do you want to continue Save and Reboot Saving Configuration and Reboot Reboot Reboot the System Figure 3 45 Reboot the System Parameter Description Save and Reboot Save the current settings as start configuration before rebooting the switch and system Reboot the system without saving changes to the setting 56
18. S Allow the users to make CoS for QoS effective Click lt Apply gt to have the setting take effect Default Enable DSCP Allow the users to make DSCP for QoS effective Click lt Apply gt to have the setting take effect Default Enable 3 6 16 ACL Access Control List ACL is designed to protect the switch from unnecessary IP traffic or Layer 4 packets and allow users to filter denial of service DoS floods against the switch Users can create 64 sets of ACL with two types of mode Port Mode and VLAN mode In Port Mode all 48 ports are mapped to the same ACL number For example port 1 will correspond to ACL number 1 However in VLAN mode it could choose its own ACL number Click lt Apply gt button in ACL QoS Load for the function to take effect ACL Mode Mode Port Mode Figure 3 22 ACL Mode Parameter Description E ACL Mode Two types of mode Port Mode and VLAN mode Click lt Apply gt to have the setting take effect 3 6 17 ACL VLAN Mapping In this function users can map the VLAN to the ACL number ACL VLAN Mapping VLAN ID ACL Number 1 1 1 y Figure 3 22 ACL Mode Parameter Description VLAN ID This page will display existing VLAN VID Default VLAN VID 1 ACL Number Each VLAN ID can be assigned 1 64 ACL Number Click lt Apply gt to have the setting take effect 3 6 18 ACL Rule In this function users can create the ACL rules in each ACL Number The smaller index of ACL
19. address is assigned to a specific port all of the switch traffics with this MAC address could be forwarded through this port of the switch For adding a MAC address entry in the allowed table three parameters are needed MAC address associated port and Alias To remove MAC address select an existing entry and click lt Delete gt button Static Forwarding MAC MAC Port Source Destination i IO Flow ID Flow ID LE 8 HEN WW MAC Port source flow destination No id flow id There is na forwarding MAC entry Figure 3 37 Static Forwarding MAC Parameter Description Port number of the switch Setting Range 1 48 Source Flow ID The parameter is influenced by Flow ID setting in QoS Setting Range 0 3 Destination Flow ID The parameter is influenced by Flow ID setting in QoS MAC It is a six byte long Ethernet MAC address and usually expressed by hex with hyphens E g 00 40 C7 D6 00 01 Setting Range 0 3 Alias 1 MAC alias name assigned by users 3 15 3 Static Filtering MAC Static Filter function is for denying packets to forward through the switch if the packet s MAC Address is listed in the table Users can add entries by filling in MAC address and alias then click Add button To remove MAC address select an existing entry and click Delete button Static Filtering MAC ENE LOINEENC GN aias There is no filtering MAC entry Figure 3 38 Static Filtering MAC Parameter Desc
20. ate collision Tx Deferred Amount of all packets that had to defer to either traffic on the network half duplex mode or to an active pause timer full duplex mode 17 3 3 Storm 3 3 1 Storm Control Storm Control is used to block unnecessary frames of the multicast and broadcast reducing the switch s performance When the frames of the multicast or broadcast are over the rate and with otrom Control enabled it will drop the frames of exceeded rate Storm Control Ma Disable 2 Mira Disable El ESS 225000000 Limit FE Poor Discand Por Discard Port Diseard Port Discard 1 Disable 13 2 Disable 14 3 Disable gt 15 4 Disable 16 5 Disable gt 17 6 Disable 18 7 Disable gt 19 g Disable 20 g Disable 21 i0 Disable 22 ii Disable 23 12 Disable 24 Broadcast Storm Disable 25 Disable 37 Disable gt Disable 26 Disable 32 Disable Disable 27 Disable gt 39 Disable gt Disable x 28 Disable 40 Disable Disable 29 Disable 41 Disable Disable gt 30 Disable 42 Disable Disable 31 Disable 43 Disable Disable x 32 Disable gt 44 Disable Disable 33 Disable 45 Disable Disable x 34 Disable 15 Disable Disable 35 Disable 47 Disable Disable 36 Disable 42 Disable Ea Figure 3 8 Storm Control Description To enable the Multicast Storm capability D
21. bypass authentication process when modifying guest identities password However administrator equivalent identify will require to verifying authority at all times Only one administrator is allowed and cannot be deleted In addition four guest accounts can be created 11 Default for Administrator Default for Guest Username admin Username guest Password admin Password guest Account Authorization admin Administrator guest Guest Figure 3 4 Account Configuration 12 3 2 Port Configuration The following functions will be explained in details in the upcoming sections Port Configuration Configuration Simple Counter Detail Counter 3 2 1 Port Status This function is the reporting tool that displays status of all ports Flow Control Porto Media Speed Duplex Transmit Receive 1 TP Down Disabled Enabled 16 Half Enabled Enabled 2 TH Dawn Enabled Enabled 1G Half Enable d Enabled 3 TR Down Enabled Enabled 16 Half Enabled Enabled a TF Down Enabled Enabled 1G Half Enabled Enahl eid 5 TP Down Enabled Enabled 1G Hall Enabled Fnahl od Figure 3 5 Port Status Description Display the port number from 1 48 Port 45 48 are optional modules Display the media type adopted by the port Port 45 48 support either fiber or UTP media for 10 100 1000Mbps Indicate whether port is active or not If port is connected properly to a device the link will display UP otherwise it wi
22. ccumulated Limit 6 1440 1 61440 Port Porti y Queue Rate O O w N e O 100 100 i00 Figure 3 15 Shaper Setting 26 The selection for enabling Shaper function Default Disable Accumulated The maximum packets transmitted out of the switch Default 61440 Setting Range 1 61440 Select the port to apply Shaper function Setting Range 1 48 Each port has 4 Queue for applying Shaper function Transmitting rate out of switch Setting Range 0 100 3 6 9 Flow When the packet enters the switch it will be mapped to a proper flow ID according to the IP Flow ID Configuration or MAC Flow ID Configuration The priorities of packets will agree with the setting in Policer Flow ID Table and are controlled by suitable policer Policer 0 3 Flow Setting IP Flow ID Ignore Setting IP Flow ID Configuration MAC Flow ID Configuration 27 3 6 10 IP Flow ID Ignore Setting This section will allow users to cancel the effects of IP Flow ID and to use the MAC Flow ID Enable the IP Flow ID Ignore to use MAC Flow ID IP Flow ID Ignore Setting 1 Enable y 17 Enable 33 Enable gt 2 Enable 18 Enable 34 Enable 3 Enable 19 Enable 35 Enable 4 Enable 20 Enable y 36 Enable y 5 Enable 21 Enable 37 Enable gt 6 Enable 22 Enable 38 Enable y 7 Enable 23 Enable 39 Enable I T p m Figure 3 16 IP Flow ID I
23. ch supports configurable time zone from 12 to 13 step 1 hour Default Time Zone 8Hrs Once enabled it will adjust the time lag or advance in unit of hours according to starting date and ending date If value is set to one hour the system time will increase by one hour after one minute past the starting time When time passes over the ending time the system time will decease by one hour Valid value is between 10 5 5 step one hour Leaving this value zero will disable the day light saving function Once day light saving value is set non zero it is necessary to set the starting ending date for the function to activate Default Daylight Saving 0 Day Light Saving Start Mth 1 1 12 Day 1 1 31 Hour 0 0 23 Day Light Saving End Mth 1 1 12 Day 1 1 31 Hour 0 0 23 Current Time Wed lun 21 10 24 42 2006 rear 2006 2000 2036 Month E 1712 Dav 21 1 31 Hour 10 0023 Minute 24 0059 second 42 07 59 209 81 9 7 1154 C 203 129 68 14 HK C 133 100 9 2 3P Time Zone GMT 8 00 C 1231 188 3 222 Germany w w 3 Daylight Saving lo y Daylight Saving Start Mth 1 x Day 1 x Hour 0 Daylight Saving End Mith 1 z Day 1 Hour 0 Figure 3 3 Time Configuration 3 1 4 Account Configuration User accounts are managed in this section where the administrator has the authority to create modify or delete username and password Administrator can
24. e When enabled the corresponding trap will actively send a trap message to the trap host when trap event occur If all public traps are disabled no public trap message will be sent Since Enterprise no 6 trap is classified as private trap which are listed in the Trap Alarm Configuration function folder Default Enable Mobile Phone 1 6 Mobile phone numbers to receive the alarm message 4 3 10 Configuration The switch supports three copies of configuration including the default configuration working configuration and user configuration 3 10 1 Save Start Save the current configuration as a startup configuration file in flash memory Configuration Save Start Save as Start Configuration Save as User Configuration Restore Default Restore Default Configuration included default ip address Restore Default Restore Default Configuration without changing current ip address Restore User Restore User Configuration Figure 3 29 General Configuration 3 10 2 Restore Default The function can retrieve factory setting to replace the Start Configuration The IP address of the switch will also be restored to 192 168 1 1 Restore Default Configuration Successfully Reboot the system to take effect for the setting 3 10 3 Restore User This function can retrieve the previous confirmed working configuration stored in the flash memory to update the start configuration The switch will need to be rebooted for t
25. ea WI WT O aa ES ET T SO ase O a O oO CLO EE ESSET haa O C All Part Unchecked C All Part Checked hb EXA 53 3 16 4 Port Protocol Setting Protocol based VLAN is based on 802 1g tag VLAN which is classification rules based on PVID configuration Users must apply Tagged based VLAN in advance The switch supports IPv4 IPv6 ARP RARP User Defined 0 User Defined 1 and User Defined 2 When packets belonging to ipv4 and does not contain VLAN s tag the switch will add PVID to the packets It will follow the rule of the configuration from VLAN Port Protocol Setting If the packets have specific tag and VID it will follow the rule of the configuration from VLAN tagged group Port PVID Port PVID Port PVID Port PVID _ 1 O 2 2 g 13 17 21 2g 29 33 q7 Parameter Protocol PVID T Port Protocol Setting 6 10 14 18 22 26 30 34 an o iia NENNEN NE o NENNEN MENU lo dM o NENNEN NES lo M BEEN o BED Wc Ll lO oo Mo WE o M nb Wc oo Mo WN la 40 n am n x Figure 3 43 Port Protocol Setting Description Including IPv4 IPv6 ARP RARP User Defined 0 User Defined 1 and User Defined 2 User 0 2 would be determined in User Defined function In PVID Setting users can assign Port Permanent VLAN ID to each port It is for untagged packets that enter the switch and operate in designated VLAN group after adding the VLAN tag according to PVID The range of PVID nu
26. eb Smart Managed Switch User defined location for the switch Contain contact details for support User defined name for the switch System Up Time Switch s operating time from the time it is switched on Format is in day hour minute and second Current Time Shows system time of the switch Format is in day of the week month day of the month hours minutes seconds year E g Wed May 17 12 10 11 2007 BIOS Version The version of BIOS for the switch Firmware Version The firmware version for the switch Hardware Mechanical The version of the hardware and mechanical version The figure prior to the hyphen is the version of electronic hardware and on the other side is the version for mechanical Serial Number The serial number is assigned by the manufacturer Host IP Address The IP address of the switch Host MAC Address Ethernet MAC address of the management agent for the switch Show all types and numbers of ports RAMSize The size of the DRAM for the switch Flash Size The size of the Flash memory for the switch System Information Model Name System Description Web Smart Managed Switch amp Contact IDevice Name ELITSE Days 4 Hours 8 Mins 17 Secs Gi Wed Jun 21 10 23 22 2006 CET v1 00 TN vo 92 CE nr er UK TIED NEM v1 00 v1 00 Series Number 010703040506 UA C NN 192 168 2 2 COPEL ay EN n0 40 c7 39 88 22 LIART 1 TP 44 Dual Media Port
27. ed and the 802 1p or Port Priority to take effect DSCP has higher precedence than 802 1p and Port Priority and it is necessary to enable IP ignore function IP Layer Priority State Setting CO ES BHL O BSL BWN Disable 17 Disable y 33 na y 2 Disable y 18 Disable y 34 Disable y 3 Disable y 19 Disable y 35 Disable y 4 Disable y 20 Disable y 36 Disable y 5 Disable y 21 Disable y 37 Disable y n Disable y 22 Disable y 38 Disable y 7 Disable y 23 Disable y 39 Disable y 8 Disable y 24 Disable y 40 Disable y 9 Disable y 25 Disable y 41 Disable y 10 Disable y 26 Disable y 42 Disable y 11 Disable y 27 Disable gt 43 Disable y 12 Disable y 28 Disable y 44 Disable y Disable y 29 Disable y 45 Disable y b op am mos fal mo lm ae md nis les au imd Figure 3 11 IP Layer Priority State Setting 22 IP ignored Enable this function for ports will disable DSCP for QoS 3 6 3 Differentiated Service Code Point DSCP Differentiated Service Code Point DSCP function could form total of 64 0 63 kinds of Traffic Class based on the arrangement of 6 bit field in DSCP of the IP packets In the switch users are allowed to set up 64 kinds of Class that belong to any of 0 7 Priority The switch supports 8 kinds of priorities and 4 Queues Differentiated Service Code Point DSCP O 2 o gt 3 o 1 fo y o o 4 lo gt 5 lo gt b o 7 lo gt 8
28. efault Disable To enable the Broadcast Storm capability Default Disable The transmitting rate of Multicast or Broadcast packets Default 125000000 bytes Setting range 119 125000000 Limit size for buffer of the switch and the maximum tolerated packets Default 65534 Pot select port 1 48 for applying Strom Control 18 To discard the frames of the multicast or broadcast exceeding the rate of Storm Control s configuration After completing the function s setting click lt Apply gt button to have this function to take effect Default Disable 19 3 4 Mirror 3 4 1 Mirror Setting Mirror Configuration is to monitor the traffic of the network For example assume that Port A and Port B are Monitoring Port and Monitored Port respectively the traffic received by Port B will be copied to Port A for monitoring Mirror Setting Porti Port Porta Porta Port5 Porto Port Port8 T Porto Portio Portii Porti Porti3 Portia Portis Porti6 Porti7 Portis Porti9 Port2 Port21 Port22 Port23 Port24 Port25 Port26 Port27 Part28 Port29 Port30 Iv Port31 M Ports M Port33 Port34 Port35 Port36 Ports Portas Port39 Port40 Portai Porta Portas Port44 Portas Port46 Porta Portas Monitored Port Figure 3 9 Mirror Setting Description Decide the modes of mirror Disable Ingress a
29. gnore Setting Parameter IP ignored Allow the setting for IP Flow ID ignore Click lt Apply gt for the changes to take effect Default Disable 3 6 11 IP Flow ID Configuration In IP Flow ID Configuration click lt Add gt button to create IP Flow ID Configuration entry When the IP packet enters the switch and fit the IP Flow ID Configuration user can check Policer Flow ID Table to find which priority should be mapped to the proper policer After IP Flow ID setting press Apply button in ACL QoS Load function to take effect IP Flow ID Configuration No Cee Source Flow ID Destination Flow ID Figure 3 17 IP Flow ID Configurations 28 Parameter Description iP Setting Range 0 0 0 0 255 255 255 255 Prefix If the IP packets are inside IP range and co operating with Prefix packets will be influenced by this IP Flow ID Configuration Setting Range 1 32 Source Flow ID Setting Range 0 3 Destination Flow ID Setting Range 0 3 3 6 12 Static Forwarding MAC Click Add button to create MAC Flow ID Configuration entry When packets enter the switch and fit the MAC Flow ID Configuration users can check Policer Flow ID Table to find which priority should be mapped to the proper policer After Static Forwarding MAC setting press Apply button in ACL QoS Load function to take effect Static Forwarding MAC MAC Port Source Destination No Flow ID Flow ID O a 1E OC oni
30. gure 3 13 Shaper Queue Parameter Description The switch supports 0 7 Priority ue a 3 6 6 ACL Priority Override The switch allows users to set ACL priority have the higher precedence for each port in ACL Priority Override function If ACL Override is enabled the other QoS priority of DSCP 802 1P and Priority will be revealed 24 ACL Priority Override 1 Disable 17 Disable 33 Disable 2 Disable 18 Disable 34 Disable y 3 Disable 19 Disable 35 Disable y 4 Disable 20 Disable y 36 Disable y 5 Disable 21 Disable 37 Disable 6 Disable 22 Disable 38 Disable gt 7 Disable 23 Disable 39 Disable 8 Disable 24 Disable 40 Disable y 9 Disable y 25 Disable y 41 Disable y 10 Disable y 26 Disable y 42 Disable Figure 3 13 ACL Priority Override Parameter Description ACL override Any port set to Enable ACL Priority will take effect over other QoS priority 3 6 7 Policer Configuration When the packets are injected into the switch Ingress Ports and match Flow ID entry Flow ID will decide which priority to take effect according to Policer Flow ID table Packets will be allowed or discarded according to the transmitting rate corresponding to the rate setting in Policer Configuration Policer Configuration Port Policer Rate Limit Action NN TEE o 100 260096 i Pass 1 100 250095 Pass 2
31. he effect to take place Restore User Configuration Successfully Reboot the system to take effect for the setting 42 3 11 Diagnostics The switch includes three self diagnostics tools Diagnostics Loopback Test and Ping Test Diagnostics Diagnostics Loopback Test Ping Test 3 11 1 Diagnostics Diagnostics function provides a set of basic system diagnosis for determining the system health The basic system check includes EEPROM UART DRAM and Flash tests Diagnostics UART Test OK DRAM Test OK Flash Test OK Figure 3 30 Diagnostic Results 3 11 2 Loopback Test In the Loopback Test there are two different loopback tests The former test Internal Loopback will not send the test signal outside the switch box The test signal only wraps around in the switch box The second test External Loopback will send the test signal to its link partner If the connection is not active between partners the test result will indicate port link is down and report port number failed During both tests the system will be temporarily interrupted where all port will stop sending or receiving packets Loopback Test Port No Internal External Port No Internal External Port No Internal External L Fail Fail 17 Fail Fail 33 Fail Fail 2 Fail Fail 18 Fail Fail 34 Fail Fail 3 Fail Fail 19 Fail Fail 45 Ok Ok 4 Fail Fail 20 Fail Fail 36 Fail Fail 5 Fail Fail 21 Fail Fail 37 Fail Fail fi Fail Fail 22 Fail Fail 38 Fail Fail
32. itch Please check the uplink setup of the Gigabit Web Smart Switch to verify the uplink function is enabled 4 The console interface cannot appear on the console port connection Gigabit Web Smart Switch has no console port so users cannot use console interface to connect with Gigabit Web Smart Switch 5 How to configure the Gigabit Web Smart Switch User can use Web browser program in Windows environment to control the web smart functions in Gigabit Web Smart Switch First choose any port in Gigabit Web omart Switch Then use browser and type default IP address 192 168 1 1 to connect to Gigabit with RJ45 network line Finally the login screen will appear immediately 58 5 Technical Specification Standards IEEE802 3 802 3u 802 3ab 802 3z 802 3x Buffer Memory 768 KB on chip frame buffer Mac Address Table Interface e 44xPort 10 100 1000Mbps TP e 4 x Port Gigabit TP SFP Fiber Bridging e Tag based VLAN 802 10 e Port based VLAN e Port Mirror Port Sniffer e Port Trunk Jumbo frame 16k bytes e QOS modes DSCP 802 1p and port priority e Scheduling Weighted Round Robin e Multicast and broadcast storm control e 4 shaper queues ACL QoS load Security ACL rules for traffic classification and prioritize e VLAN for isolation of traffic between users Management Web based Console Telnet SNMP amp MIBs Data Transfer Rate 10M Half duplex 20M Full duplex 100M Half duplex 200M Full duplex 1000M Full duple
33. itch Port 45 48 include two types of media TP and SFP Fiber LC BiDi LC These ports support 10 100 1000Mbps TP or 1000Mbps SFP Fiber with auto detected function 1000Mbps SFP Fiber transceiver is used for high speed connection expansion 1 1 Package Contents Gigabit Web Smart Switch Mounting Accessory for 19 Rack Shelf Quick Installation Guide CD ROM with User Manual AC Power Cord 1 2 Key Features IEEE802 3 10Base T IEEE802 3u 100Base TX IEEE802 3ab 1000Base T and IEEE802 3z 1000Base LX SX standards 48 x 10 100 1000M RJ 45 ports and 4 x shared SFP slots 48Gbps non blocking switching capability Wire speed performance at jumbo packet size of 16K byte Head of Line HOL blocking prevention IEEE802 1q tag based VLAN 256 VLAN groups Traffic optimization using various class of service option per port L2 priority 802 1p L3 priority TOS or DSCP L4 priority TCP UDP service number and IPv6 traffic class 4 hardware priority queues Enhanced traffic rule and security by L2 L3 L4 ACL Access Control List Broadcast and multicast storm control Ingress and egress per port bandwidth control Port trunk with flexible load distribution and failover function SNMP trap E mail and SMS alarm for any connectivity events 1 3 Front Panel View The switch provides 44 Port 10 100 1000Mbps TP and 4 Port Gigabit TP SFP Fiber LED lights for Power CPU are placed on the left hand side of the front panel Port status indicati
34. ive Community name string must not be left blank Any printable characters are allowed The community name for each function works independently Each function has its own community name The community name for GET only works for GET function and can t be applied to other function such as SET or Trap Default SNMP function Enable Community name for GET public Community name for SET private Community name for Trap public Set function Enable Trap host IP address 0 0 0 0 Port number 162 38 3 8 Link Aggregation The Aggregation Configuration Port Trunk is used to configure the settings of Link Aggregation Users can bundle more than one port with the same speed in full duplex and the same MAC to a single logical port that aggregates the bandwidth of these ports This means user can apply current Ethernet equipments to build the bandwidth aggregation For example if there are three Fast Ethernet ports aggregated in a logical port then this logical port has bandwidth with three times as high as a single Fast Ethernet port 3 8 1 Aggregation Configuration Display the current setup for Aggregation Trunking This function allows user to add a new trunking group or modify members of an existing trunking group When configuring the link aggregation function users should check whether the aggregated ports are in full duplex mode and same speed Link Aggregation Port Group Port Gron Port
35. lex 60
36. ll show Down Allow the user to enable or disable the traffic Once traffic is set to Disabled data transfer is prevented on this port Default Enable Auto Nego Display the exchange mode of Ethernet MAC If this field is enabled the switch will automatically negotiate to determine the speed and duplex mode When the function is disabled both sides will require the same speed and duplex settings for the link to activate 13 Speed Duplex Display the speed and duplex of all ports Switch support data rates of 10 100 1000Mbps and duplex mode of half duplex of full duplex 1Gbps fiber media only supports 1000Mbps 1000M TP NWay On Off Speed 10 100 100M Duplex Full for all Half for 10 100M 1000M Fiber Nway On Off Speed 1000M Duplex Full Flow Control This parameter allows flow control on both incoming and outgoing data If flow control is set as Enable on some port the port will send PAUSE frame to the transmitting device s as the receiving port unable to handle data For ports that receive pause frames it will decrease in transmission speed When it is set as Disable there will be no flow control capability in the port The packet will be dropped if it is overwhelmed by data Default Transmit Enable Receive Enable 3 2 2 Simple Counter The function collects information and provides the counting for port traffic regardless of the packet condition
37. lo 9 lo 10 lo 11 lo 12 o 13 lo 14 lo 15 lo 16 a y 17 lo 18 a 19 lo 20 lo gt 21 lo 22 lo 23 foz 24 oz 25 lo y 26 0 27 o 28 lo 29 lo gt 30 a gt 31 0 32 lo y 33 lo gt 34 o 35 lo gt 36 lo gt 37 lo gt 38 lo 39 lo 40 lo gt 41 jo gt 42 a gt 43 a gt 44 lo 45 la gt 46 lo gt AT foz 48 oz 49 lo 50 lo 51 lo 52 a gt 53 n 54 a 55 a gt 56 O 57 lo 58 a 59 O 60 O y 61 0 62 or 63 lo gt Figure 3 12 DSCP Parameter Description DSCP 0 63 DSCP priorities available 0 7 Priority for each DSCP 3 6 4 Port Priority Setting Allow users to set the priority of each port Port Priority Setting 1 o y 17 jo y 33 o 2 lo 18 lo 34 lo 3 o y 19 fa y 35 o 4 lo 20 o 36 o y 5 0 21 O gt 37 0 6 lo y 22 o y 38 o 7 0 23 0 39 o y 8 lo 24 lo 40 lo 9 n vl 25 n vl 41 la 2 O2 3 6 5 Shaper Queue The switch supports 4 queues 0 3 for Shaper function controlling Any of 0 7 Priority could be mapped to any of 0 3 queue After determining the queue of each priority the function will influence QoS scheduling and Shaper Queue when packets are transmitted The QoS scheduling is Strict Priority When all priorities are entered into the same queue there will be no effect on Strict Priority Shaper Queue o 1 vC oe WN amp O o o 1 1 Fi
38. lticast 0 rx Broadcast o o ETT o o Transmit Length Counters o E ayes O o Gx 6 127 Bytes o i Tx 128 255 Bytes 0 Tx 256 511 Bytes o W Tx 512 1023 Bytes 0 Mi Tx 1024 1519 Bytes 0 Gi 119 1529 Bytes o Tx Jumbo Packets 0 o Figure 3 7 Detail Counter 15 Amount of unicast packets received Rx Broadcast Amount of broadcast packets received Amount of multicast packets received Rx Pause Amount of pause frames received Rx Other Control Amount of other type of packets received Tx Unicast Amount of unicast packets transmitted Tx Broadcast Tx Multicast Tx Pause Rx 64 Bytes Amount of broadcast packets transmitted Amount of multicast packets transmitted Amount of pause frames transmitted Amount of 64 bytes for both good and bad packets received Amount of 65 127 bytes for both good and bad packets received Amount of 128 255 bytes for both good and bad packets received Amount of 256 511 bytes for both good and bad packets received Rx 65 127 Bytes Rx 128 255 Bytes Rx 256 511 Bytes Rx 512 1023 Bytes Amount of 512 1023 bytes for both good and bad packets received Rx 1024 1518 Bytes Amount of 1024 1518 bytes for both good and bad packets received Amount of 1519 1522 bytes for both good and bad packets received Rx Jumbo Packets Amount of packets which are up to 6 times the size of standard Ethernet packets This field will show amount of Jumbo frames received Rx Runt Packets Collisions ca
39. mber is the same as VID from 1 to 4094 Usually before users set a number as PVID it would create a Tag based VLAN with VID using the same number This is due to the fact if port 1 receives an untagged packet the switch will add PVID assume VID 2 to this packet The packet will be forwarded to VLAN group of VID 2 created by the user in advance 54 3 16 5 Port VID Port VID is applied to untagged packets entering the switch The packet will be added a VID and forward to the VID group according to PVID number In the switch VLAN has different modes to use for all kinds of network environment The switch supports four modes Access Private Trunk and Hybrid When using Access mode the switch only accepts untagged packets The behavior of Private Mode is similar to Access mode where the only difference is that Private ports couldn t communicate with Private ports or Access Ports For Private mode it can only communicate with Trunk ports or Hybrid ports In Trunk mode the trunk ports only accept tagged packets Trunk ports would only transmit tagged packets In Hybrid mode the trunk ports only accept tagged packets Trunk ports would only transmit tagged packets but with an exception where VID of VLAN group for the packets is the same as PVID of the port mmm TENDR Parameter PVID Mode Access Access 7 ACCBSS Accecs Access Access ACCESS 7 Access Access Y Access ACCess T V
40. module carefully along the slot and ensure it is properly seated against the slot socket connector 3 Attach the media cable for network connection 4 Repeat steps above for each module to be installed 2 1 3 TP Port and Cable Installation 1 TP ports support MDI MDI X auto crossover therefore both straight through and crossed over can be used 2 Cat 5 grade RJ 45 TP cable is to be used to connect to a TP port and the other end is connected to a network aware device 3 Repeat steps above for each TP port to be installed 2 1 4 Powering On The switch s power adapter supports 100 240 VAC and 50 60 Hz The power supply will automatically convert the local AC power source to DC power The power socket can be located on the right hand side of the rear panel For further information refer to figure 1 2 Rear Panel View 2 1 5 Installing Chassis to a 19 Inch Wiring Closet Rail Allow space for air ventilation on both sides of the chassis Wear grounding device to prevent electrostatic discharge on equipment Attach the mounting accessory to the front side of the switch pe pU qw x Tighten the chassis by tightening the screws 2 1 6 Cabling Requirements The table below is the cable requirements for ensuring optimal network performance Connection Type Cable Requirements Maximum Length Fast Ethernet TP 100 meters i Gigabit Ethernet TP Cat 5 recommend Cat 5e 100 meters Table 2 1 Cable Requirements Gently place the
41. n generate runt packets that are less than 512 bits in length This field will show the amount of Runt Packets Rx Oversize Amount of long frames according to max_length with valid CRC Amount of 64 bytes for both good and bad oackets transmitted Amount of 65 127 bytes for both good and bad packets transmitted Amount of 128 255 bytes for both good and bad packets transmitted Amount of 256 511 bytes for both good and bad packets transmitted Amount of 512 1023 bytes for both good and bad packets transmitted Amount of 1024 1518 bytes for both good and bad packets transmitted Amount of 1519 1522 bytes for both good and bad packets transmitted Tx Jumbo Packets Amount of packets which are up to 6 times the size of standard Ethernet packets This field will show amount of Jumbo frames transmitted Rx 1519 1522 Bytes Tx 64 Bytes Tx 65 127 Bytes Tx 128 255 Bytes Tx 256 511 Bytes Tx 512 1023 Bytes Tx 1024 1518 Bytes Tx 1519 1522 Bytes 16 packets received Amount of packets received with a CRC error and a code error These packets do not have dribble bits and are at least 64 bytes in length Amount of short frames lt 64 bytes with invalid CRC experiencing one collision experiencing multiple collisions experiencing excessive collisions Tx Late Collisions Amount of packets that fail to be transmitted due to a late collision Such packets may have experienced one or more normal collisions prior to the l
42. nd Egress Monitoring Port To select the monitoring port Valid port is 1 48 Default None Setting Range 1 48 Monitored Ports To select the ports to be monitored Valid port is 1 48 Tick the check box beside the port and click lt Apply gt button 20 3 5 Filter 3 5 1 Filter Setting Filter Setting can prevent the switch from abnormal or unknown traffic and increase switch s performance It can filter the network traffic from Bad Length packet Unknown Encapsulation packet Unknown EtherType frame Unknown IP Protocol packet IPv4 options packet and Unknown Source Address packet Parameter Filter Mode Description Bad Length is a packet received with length field that does not match the length of the packet s data field Unknown Encapsulation is a packet received with encapsulation that is not Ethernet V2 or SNAP with or without VLAN tag Unknown EtherType is a packet received with field that is not IPv4 IPv6 ARP or RARP Unknown IP Protocol is a packet received with IP protocol field that is not ICMP IGMP TCP or UDP Port 1 48 are available for filtering Ticking options L are used to filter the traffic of the logical ports created by Link Aggregation Tick All will click all physical ports rapidly After completing the function s setting click lt Apply gt button Filter Setting Bad Lenon El Port 1T Port 2 Port 37 Port 4 Port 5 l Por
43. o isis sao 43 SS LES T FN YE FR FFF FAN EA UP PES 44 PP eae Satine FANON FN X 45 IE AE TPS COV Cl wa O CE RR TT 45 Gh Fo LO Peer ee E 46 A Ald FRY FF HF Y ER O AS 46 LAIR WAR EG GEO a DU O EU 47 a A Odo DU ed E A CN AF 4 SH NUES PACKED EENG iiss aia 48 3 15 1 Maximum Packet Length Configuration esee 48 3 15 2 Stade Obw at dine MAC ous toti due ao iiio I ioo EO del tale les dnd 48 os tap d a AA O en RE 49 NF OR UU eee asses E a FT EN 50 Dl OLN TaN VUE H s 50 IIO Tae Daed V LAN FRWYDR FFR FFYN SI DIU Een EL e ERE Moon dod 50 35 16 Por based VAN uu GL Y Gn Y GAN Y abia 52 ao POT PTOLOCOl Sete uoce EE EHI o SN a oO UO du East AE cpu ds 54 onl Bo o ro HM ADR RP 55 AE OO Cigna ee ee a ee ee 56 LL IREDOOL THe S V5 Maat 56 thon BGG S AERE 57 de TROUBLESHOO TIN Gp vsscdccevececesicccccssccsccsawsescasacnaedencccevnececeedeundoscsvscesdedaeedessccscdalacseds 58 Se TECHNICAL SPECIFICATION scsi add 59 1 Introduction Micronet SP6148WS 48 port Gigabit Web Smart Switch delivers truly non blocking and wire speed Gigabit performance for enterprises and service providers that demand high port density applications Moreover it brings advanced features including tag based VLAN port trunk L2 L3 L4 traffic prioritization bandwidth control and ACL to optimize the network In the sw
44. og data provided by the switch There are 19 private trap logs and 5 public trap logs The switch supports total of 120 log entries For more details on log items please refer to the section on Alarm Configuration and SNMP Configuration 3 13 1 Log Data The Trap Log Data is displaying the log items including all SNMP Private Trap events SNMP Public traps and user logs Log Data TFTP Server 197 168 1 101 IT iie 1 Thu Jun 22 13 54 27 2006 Cold Start Auto Upload Enable s Upload Log Figure 3 34 Log Data Parameter Description i TFTP Server TFTP Server IP address Log upload reguires user to specify TFTP server Auto Upload Auto Upload Status Display the order number in which the trap event happened Display the time when the trap happened Display the trap event name Auto Upload Enable Switch the enable or disable status of the auto upload function Upload Log Upload log data through TFTP Clear Log Clear log data 46 3 14 Firmware Firmware upgrade tool is used to help upgrade the software in order to fix or improve the function The switch provides a TFTP client for software upgrade and can be done through Ethernet 3 14 1 Firmware Upgrade Follow the procedure to upgrade firmware of equipment to a newer version via TFTP client Switch must not be powered off during the procedure and will cause unexpected damages to the equipment 1 Specifying the IP address where TFTP server is located The field should con
45. on LEDs are located on the top right hand side of each port For details on LED indications refer to section 1 3 1 LED Indicators 6 Fig 1 1 Front Panel View Power CPU Indication Reset Button TP Port LED Gigabit Ethernet Port SFP Fiber Port Fiber Port LED o U e SY Xo 1 3 1 LED Indicators LED Status Operation System LED POWER On Green Poweison 0 CPU fails or initializes LINK ACT 10 100 1000M lui osha SFP Link with remote device is good LINK ACT 2 SS Off Link is off or bad connection 1 4 Rear Panel View Fig 1 2 Rear Panel View 2 Installation These three sections provide users a quick start on installation e Hardware and Cable Installation e Management Station Installation e Software Booting and Configuration 2 1 Hardware and Cable Installation Prior to installation please wear grounding device to prevent electrostatic discharge on equipment 2 1 1 Installing Optional SFP Fiber Transceiver Note Skip this section if no modules are installed Attach the SFP fiber transceiver according to the figure below Supported SFP transceivers include RubyTech Corporation Avago Technologies and Finisa Corporation Fig 2 1 Installing SFP Fiber Transceiver 2 1 2 Connecting the SFP Module to the Chassis The SFP modules can be plugged or unplugged while the device is still powering on 1 Verify the SFP module is the right model and conforms to the chassis 2 Slide the
46. p by pressing the associated buttons Users can add a new VLAN group by inputting a new VLAN name and VLAN ID In the switch logical ports also could be created as VLAN group Logical Ports are set according to the configuration of Link Aggregation that could create 24 sets of logical ports 50 VLAN Group Information VID VLAN Name Member Port 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 1 defaut 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 L 1 L 2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16 L17 L18 L19 L20 L21 L22 L23 L24 Figure 3 41 VLAN Group Information Parameter Description VLAN Name The name defined for VLAN group by administrator Valid letters are A Z a z 0 9 and _ characters The maximum length is 15 characters VLAN ID VLAN identifier Each tag based VLAN group has a unigue VID It appears only in tag based and double tag mode Member Port This is used to enable or disable a port for membership of the added VLAN Tick the checkbox beside the port to enable it Create VLAN Create a new Tag based VLAN Input the VLAN oe name and select the member by ticking the checkbox beside the port No Click lt Apply gt to have the setting take effect Delete VLAN Click Delete VLAN gt button to remove the selected group entry from the Tag based group table Select a group entry and click lt Edit VLAN gt button to modify a group s de
47. riority The switch supports 0 7 priority 35 3 6 20 ACL QoS Load Enable QoS Capability in ACL function Click lt Apply gt to have the setting take effect MOE ARRE Aasin i mpri en ACL gmas Los Fi arcte ud p a B E 3 6 21 User Defined Users define own values of the EtherType and Protocol It will become available when creating ACL rule User Defined Ethertype IP Protocol se value se r 1537 r1 NN P 1337 F o P 1337 r 0 Figure 3 25 User Defined Parameter Description Tick the option button to open and fill in the value of EtherType and IP Protocol Click lt Apply gt to have the setting take effect Value The Value of EtherType and IP Protocol Default EtherType 1537 IP Protocol 0 36 3 7 SNMP Any Network Management System NMS running the Simple Network Management Protocol SNMP can control the managed devices equipped with SNMP agent provided that the Management Information Base MIB is installed correctly on the managed devices The SNMP is a protocol that is used to govern the transfer of information between SNMP manager and agent Also traverses the Object Identity OID of the management Information Base MIB described in the form of SMI syntax SNMP agent is running on the switch to response to the request issued by SNMP manager The switch supports an option to turn on or off the SNMP agent If users set the field SNMP Enable SNMP agent
48. ription MAC It is a six byte long Ethernet MAC address and usually expressed by hex with hyphens E g 00 40 C7 D 00 01 Alias MAC alias name assigned by users 49 3 16 VLAN 3 16 1 VLAN Mode The VLAN Mode Selection function includes two modes Port based and Tag based Users can specify the VLAN mode by selecting the item from the list Click lt Apply gt to have the setting take effect Parameter Port based Tag based 3 16 2 Tag based VLAN VLAN Mode VLAN Mode Tag based Figure 3 40 VLAN Mode Description Port based VLAN acts according to the port group Packets in the same VLAN group containing list of ports can transmit data in or out For example a port based VLAN named PVLAN 1 contains port 1 2 9 and 4 Port 1 can communicate with port 2 3 and 4 However port 5 cannot interact with ports in PVLAN 1 Each port based VLAN must be assigned a group name The switch can support up to maximum of 72 port based VLAN groups Tag based VLAN identifies its member by VID If there are any rules in ingress filtering list or egress filtering list the packet will be screened with more filtering criteria to determine if it can be forwarded Each tag based VLAN must be assigned VLAN name and VLAN ID Valid VLAN ID is 1 4094 and users can create up to 256 Tag VLAN groups It shows the information of existing Tag based VLAN Groups Users can create edit and delete a Tag based VLAN grou
49. s The table will contain a summary of all ports activities Each data field is 20 digit long and will reset if the amount overflows The data is updated according to the time interval defined by the user The valid range for refresh interval is between 3 to 10 seconds and the default is set at 3 seconds 14 Simple Counter Refresh Interval 3 sec Reset all Ls 1 o o oO o n 2 o 0 n o o 3 o o 0 o a 4 o 0 n o o 5 o 0 DO o o 5 o o n o o o o o n o o B o 0 o 0 o a 9 o o O o o 10 o 0 0 o o 11 o 0 O o a 1 o o o o n 13 n o o n n n 14 o 0 o 0 o a 15 o 0 n o o 16 o Oo o O o Oo 17 n o o n n n 15 n o o n n n 19 i o da ii a 20 o 0 a o a Figure 3 6 Simple Counter Description Total received bytes Amount of collision transmitting frames experienced 3 2 3 Detail Counter The function collects any information and provides the counting of port traffic in detail regardless of packet conditions The window will only show single port information To see another port s information pull down the list from the Select field to change the port to be displayed Each data field is 20 digit long and will reset if the amount overflows The data is updated according to the time interval defined by the user The valid range for refresh interval is between 3 to 10 seconds and the default is set at 3 seconds Detail Counter Select Port 1 y Refresh Interval 3 sec y Sonia o 1 Tx Mu
50. s of 802 1p QoS being the priority of VLAN s tag DSCP is another QoS capability which affects the priority of IP Packets Mark Priority n ox n o n 1 o o jo o 2 o gt o jo jo 3 o y foz o b 4 oz oz jo o 5 0 O y lo lo 6 0 y jo y jo o 7 o o jo b ETIN Figure 3 20 Mark Priority Parameter Description There are 0 7 priorities in the switch Not demoted There are 0 3 queues for selection in ingress ports not reaching the rate set in Policer function Click Apply to have the setting take effect Demoted There are 0 3 queues for selection in ingress ports reaching the rate set in Policer function Click Apply to have the setting take effect 3l 3 6 15 Mark enable CoS DSCP The function allows enabling of Mark function for CoS DSCP per port Mark enable CoS DSCP enable enable 17 Enable enable 33 enable 2 enable Z Enable era Enable UN enable IU aa Enable En enable enable 19 Enable enable a5 enable s Enable e Enable en d 20 enable B Enti 387 Enabie enable B enable enable 21 Enable Enae 37 enable m Fmatie 7 Enable B Pf enable gl 2 llenable Bl P enable E a Enable Enoti Bl enable enable 23 enable Fmabe 30 Enae m Fmatie 7 ee eee imd ar Pei ml Pe aa a Ferca eilr e Figure 3 21 Mark enable CoS DHCP Ss m M tz d U Ph m Parameter Description Co
51. scription and member set Checkbox of all member ports will become unchecked after lt All Port Unchecked gt is selected All uncheck box of all member ports will become checked after lt All Port Checked is selected 51 Create VLAN Group LIED Mame UN gt B 3 L 4 m 6 l gt B 8 L m IM eye T IIA M ie MY ove MIME MS Moe Bm B m H 25 0 26 0 27 0 260 29 0 30 0 31 0 320 Member Port eel m se m Me Me m B m el LO 420 4230 44 0 45 50 36 0 47 0 480 EXT IESO eT ES ET ue EST Lu 1 Lan T tail via fl caa O tia Lis fF Lie Fl Liz DO 118 O 119 O 0 O 21 O L22 T L23 O tao All Port Unchecked C All Port Checked h ESTA Figure 3 42 Create VLAN Group 3 16 3 Port based VLAN The function shows the information of the existing Port based VLAN Groups Users can create edit and delete a Port based VLAN group by pressing the associated buttons Users can add a new VLAN group by inputting a new VLAN name In the switch logical ports also could be created as VLAN group Logical Ports are set according to the configuration of Link Aggregation that could create 24 sets of logical ports VLAN Group Information VLAN VLAN Name Member Port 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 4D 41 42 43 44 45 46 4 7 4B L 1 L2 L3 L4 L5 L6 L L8 L9 L10 L11 L1 2 L13 L14 L15 L16 L17 L18 L19 L20 L21 L22 L23 L
52. t 6 Port 7 Port 8 T Port 9 Port 10 Port 11 Port 12 Port 13 Port 14 l Port 15 Port 16 Port 17 Portis Port 19 Port 20 Iv Port 21 Y Port 22 M Port 23 Port 24 Port 25 Port 26 Port 27 Port 28 l Port 29 l Port 30 Port 31 Port 32 Port 33 Port 34 Port 35 Port 36 Port 37 Port 38 Port 39 Port 40 Port 41 Port 42 Port 43 l Port 44 l Port 45 Port 46 Port 47 Port 48 ML 1 LL 2 L3 Ota L5 6 Ft Mee Ors Corio Praia PLiz L 13 L14 L15 L 16 L 17 Lias Frig L20 FL21 FIL22 TL23 FLt24 TF all Figure 3 10 Filter Setting 21 3 6 QOS 3 6 1 Priority Configuration There are five settings available for Priority Configuration In the switch there are three modes of QoS DSCP 802 1p and Port Priority respectively The precedence of them are DSCP gt 802 1p gt Port Priority For 802 1p or Port Priority mode these ports should enable IP ignored in advance Furthermore the scheduling of QoS uses Strict Priority and the higher priority of packet will get the highest precedence to transit in the switch In Priority Configuration for ACL to override other priorities of QoS enable ACL enabled in some ports 802 1p is the priority of VLAN tag Priority Configuration IP Layer Priority State Setting Differentiated Service Code Point DSCP Port Priority Setting ACL Override 3 6 2 IP Layer Priority State Setting The setting allows DSCP IP Layer to be disabl
53. tain the IP address specified by the user 2 Specifying the filename and location of the file Users must specify full path and filename 3 Click Upgrade button If download is not successful the switch will revert back to Firmware Upgrade and it will not upgrade the software 4 Ifthe download is successful a reboot message will be prompted and it is necessary that the switch is rebooted for settings to take effect Firmware Upgrade 192 168 1 101 Path and Filename 7 Upgrade Figure 3 35 Firmware Upgrade Parameter Description TFTP Server TFTP servers for uploading the image file for upgrade Path and Filename File path and filename of the image file for upgrade 4 3 15 Max Packet Length 3 15 1 Maximum Packet Length Configuration The switch is capable of dealing with Jumbo Frames of 16k in length which suit the transmission for a large amount of data in the network environment Maximum Packet Length Configuration Maximum Packet Length bytes 1522 16383 Figure 3 36 Maximum Packet Length Parameter Description Maximum bytes Set up the maximum length of the packet for each port Default 1522 Setting Range 1 16383 3 15 2 Static Forwarding MAC Static Forward function allows user to create the static forward table to access a specified port of the switch Static Forward table associated with a specified port is set up by manual input of MAC address and alias name When a MAC
54. x Switch Fabric Filtering Forwarding Rate 10Mbps 14 880pps 100Mbps 148 800pps 1000Mbps 1 488 000pps Emission Environment Operating Temperature 0 40 C Operating Humidity 596 9096 Dimension Power Supply Network Interface Configuration Mode Bn ARO 10 100 1000Mbps Gigabit TP TP RJ 45 1000Base SX Gigabit Fiber 1000 FDX 44 48 1000Base LX Gigabit Fiber 1000 FDX 44 48 1000Base LX Single Fiber WDM BiDi 1000 FDX 44 48 Port 44 48 are TP SFP fiber dual media ports with auto detected function Optional SFP module supports LC or BiDi LC transceiver 59 Cable and Maximum Length Cable Type Distance Cat 5 UTP cable up to 100m 1000Base SX Up to 220 275 500 550m depending on Multi Mode Fiber type 1000Base LX Single Mode Fiber up to 10 30 50km 1000Base LX WDM BiDi Single Mode Single Fiber up to 20km LED definition POWER OnGreen Powerison Blink Green Switch is working properly LINK ACT 10 100 1000M On Green 1000M link is detected UINICAC ror Link is off or bad connection gt Transmission Mode 10 100Mbps supports full half duplex and 1000Mbps supports full duplex only gt Transmission Speed 10 100 1000Mbps for TP and 1000Mbps for Fiber MAC Address and Self learning 8K MAC address and 256 VLAN table entries Flow Control IEEE802 3x is compliant for full duplex and backpressure flow control is for half dup
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