User Manual
ES-5816PHG
Gigabit 16-Port 802.3at PoE Web Smart Switch
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Content
Content………………………………………………………………………………….I
Introduction……………………………………………………………………………..1
Product Overview……………………………………………………………………………….1
General Feature…………………………………………………………………….1
L2 switching………………………………………………………………………………………..1
Quality of Service………………………………………………………………………………… 2
Security…………………………………………………………………………………………… .2
Specification……………………………………………………………………………………..3
Mechanical……………………………………………………………………………………....3
Package Contents……………………………………………………………………………...4
Hardware Description………………………………………………………………….5
Physical Dimensions / Weight………………………………………………………………...5
Front Panel……………………………………………………………………………………...5
LEDs Indicators…………………………………………………………………………………..5
Rear Panel………………………………………………………………………………………6
Hardware Installation…………………………………………………………………………..6
Software Description…………………………………………………………………..7
Login……………………………………………………………………………………………..7
Configuration……………………………………………………………………………………8
System ..…………………………………………………………………….…………….....8
Ports ………….…………………………………………………..…………………………..10
Vlan…………………………………….……………………….…………………………...11
Aggregation…………………………………………………………………………….….12
LACP……………………………………………………………………………….……….13
RSTP………………………………………………………………………………………..14
802.1x ………………………………………………………………………………………16
Snopping………………………………………………………………………….17
Mirrioring…………………………………………………………………………………18
QoS……………………………………………………………………………………….19
Filter..……………………………………………………………………………….…22
Power over Ethernet ………………………………………………………………………...23
Rate Limit…………………………………………………………………………………….24
Storm Control……………………………………………………………………………24
Monitoring…………………………………………………………………………………...26
Statistic Overview……………………………………………………………………… 26
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Detailed Statistic………………………………………………………………………..26
LACP Status……………………………………………………………………………. 27
RSTP Status……………………………………………………………………………..28
IGMP Status……………………………………………………………………………..30
VeriPHY…………………………………………………………………………………..30
Ping……………………………………………………………………………………....31
Maintenance………………………………………………………………………………...34
Warm Restart…………………………………………………………………………....34
Factory Default………………………………………………………………………….34
Software Upload………………………………………………………………………..34
Configuration File Transfer…………………………………………………………....34
Logout……………………………………………………………………………………35
II
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Introduction
Product Overview
This switch is a Web Management Switch equipped with 16-ports
10/100/1000BaseT(X) with 4-port gigabit SFP open slots. It was designed for
easy installation and high performance in an environment where traffic is on
the network and the number of users increases continuously. The compact
rigid desktop size was specifically designed for small to medium workgroups.
It can be installed where space is limited; moreover, it provides smooth
network migration and easy upgrade to network capacity.
In addition, the switch features comprehensive and useful function such as
QoS (Quality of Service), Spanning Tree, VLAN, Port Trunking, Bandwidth
Control, Port Security, SNMP/RMON, IGMP Snooping capability via the
intelligent software. It is suitable for both metro-LAN and office application.
General Features
- 16 Gigabit Ethernet ports with non-blocking wire-speed performance
- 16 tri-speed 10/100/1000 Mbps Gigabit Ethernet Media Access Controllers
(MACs)
- Eight tri-speed ( 10/100/1000 Mbps ) integrated copper transceivers
( PHY’s)
- Sixteen integrated SGMII ports
- Buffer Memory 500K Bytes
- 8,192 IP multicast groups supported
- Jumbo frame support at all speed ( 10/100/1000 Mbps) of up to 9.6K bytes
- Wire-speed automatic learning and CPU-based learning configurable per
port
- Support up to 24 trunks with up to 16 ports in a trunk
Layer-2 Switching
-
-
16 Giga Ethernet ports with non-blocking wire-speed performance
8,192 MAC addresses with wire-speed automatic learning and
CPU-based learning configurable per port
-
Rapid Spanning Tree Protocol support ( IEEE std 802.1w)
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-
-
Multiple Spanning Tree support ( IEEE std 802.1s )
IGMP, GARP, GMRP, and GVRP support
Quality of Service
- Programmable multi-layer classifier with four QoS classes per port
- Strict priority or weighted round-robin forwarding with guaranteed
bandwidth allocation
- Traffic class assignment based on port
- DSCP ( IPv4 & IPv6) and 802.1p support
- DSCP remarking for both IPv4 & IPv6 packets
- Provide Bridge support with multiple VLAN tags ( Q-in Q)
- Broadcast and multicast storm control
- Full-duplex flow control ( IEEE 802.3x ) and half-duplex back pressure
- Traffic shaping and policing per port in sites
- Link aggregation support based on layer 2-4 information ( IEEE Std
802.3ad)
Security
- Port-based access control support
- 4,096 VLAN support
- VLAN awareness on a per port basis
- Independent and share VLAN learning
- VLAN Q-in Q support (VLAN stacking )
- Source IP filter per port to block unwanted access
- Extensive snooping : BPDU, GARP, ARP, IPMC, IGMP, TCP/UDP
- TCP/UDP filter for CPU copy/redirect, frame snooping and frame
eradication
- DHCP filter to block unwanted DHCP servers on a per-port basis
- Multiple ARP filters for detection of ARP intrusion scans
- Extensive storm control: broadcast, multicast, uni-cast, ICMP and CPU
( ARP, BPDU) traffic control
- Per port CPU based learning option
- CPU mirroring per port and per VLAN
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Specifications
¾ Standard
IEEE 802.3 10BaseT
IEEE 802.3u 100BaseTX
IEEE 802.ab 1000BaseT
IEEE 802.3z 1000BaseSX/LX
IEEE 802.3x Flow Control
IEEE 802.3 Auto Negotiation
IEEE 802.3 Auto-MDI/MDI-X
IEEE 802.1ad Provider Bridge ( Q in Q )
IEEE 802.1x Port-based Network Access Control
IEEE 802.1Q VLAN Tagging
IEEE 802.3ad Link Aggregation
IEEE 802.1d Spanning tree protocol
IEEE 802.1w Rapid Spanning tree protocol
IEEE 802.1p Class of service, Priority Protocols
IEEE 802.3af- 2003 Power over Ethernet
IEEE 802.3at- 2009 Power over Ethernet
¾ Number of Port
16-port 10/100/1000BaseT(X) + 4 Gigabit SFP Open Slots
¾ LEDs Indicator
Per Port: Link/ Act, 1000M
Per Unit: Power
¾ Power Consumption: 130 Watts (Max)
¾ Power Input: 100~240V/AC, 50~60HZ
¾ Product Dimensions/ Weight
45 × 330 × 440 mm (H × W ×D) / 4.4kg
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Package Contents
Before you start to install this switch, please verify your package that
contains the following items:
z One Switch
z One Power Cord
z One User Manual
z One pair Rack-mount kit + 8 Screws
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Hardware Description
This part primarily presents hardware of the web-smart switch, physical
dimensions and functional overview would be described.
Physical Dimensions/ Weight
45 × 440 × 330 mm (H × W × D) / 4.4KG
Front Panel
The front Panel of the web-smart Switch consists of 16 gigabit RJ-45 ports + 4
gigabit SFP open slot. The LED Indicators are also located on the front panel.
SFP ports for
LED Display
RJ-45 Port
optical transceivers
LED Indicators
The LED Indicators present real-time information of systematic operation
status. This table provides description of LED status and the meaning.
Table 1-1 LED Indicators
LED
Status
Description
On
Off
Power on
Disconnect from Power Source
Reset button for 3 seconds
Power
Blink
On
Flashing
Off
Link
Data activating
No device is attached
Port is linked to Power Device
No Power Device is connected
Link/ ACT
PoE
On
Off
Note: The SFP ports are shared with normal RJ-45 ports 1,2,3 and 4. The
RJ-45 can not be used when SFP port link up.
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Rear Panel
The 3-pronged power plug is placed at the rear panel of the switch right side
shown as below.
Hardware Installation
Set the switch on a large flat space with a power socket close by. The flat
space should be clean, smooth, level and sturdy. Make sure there is enough
clearance around the switch to allow attachment of cables, power cord and
allow air circulation. The last, use twisted pair cable to connect this switch to
your PC then user could start to operate the switch.
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Software Description
This part instructs user how to set up and manage the switch through the web
user interface. Please follow the description to understand the procedure.
At the first, open the web browser, and go to 192.168.2.1 site then the user will
see the login screen. Key in the password to pass the authentication then
clicks the Apply. The login process is completed and comes out the sign
“Password successfully entered”.
Login
Password: 1234
Figure 1-1
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After the user login, the right side of website shows all functions as Fig. 1-2.
Figure 1-2
Configuration
System
System Configuration
This page shows system configuration information. User can configure
information as below:
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Figure 2-1
¾ MAC Address: Displays the unique hardware address assigned by
manufacturer (default).
¾ S/W Version: Displays the switch’s firmware version.
¾ H/W Version: Displays the switch’s Hardware version.
¾ DHCP Enabled: Click the box to enable DHCP
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¾ Fallback IP address: Manually assign the IP address that the network is
using. The default IP is 192.168.2.1
¾ Fallback Subnet Mask: Assign the subnet mask to the IP address
¾ Fallback Gateway: Assign the network gateway for industrial switch. The
default gateway is 0.0.0.0.
¾ Management VLAN: ID of a configured VLAN (1-4094) through which you
can manage the switch. By default, all ports on the switch are members of
VLAN 1. However, if the management VLAN is changed, the management
station must be attached to a port belonging to this VLAN.
¾ Name: Type in the new user name (The default value is ‘admin’).
¾ Password: Type in the new password (The default value is ‘admin’).
¾ SNMP Enabled: Enables or disables SNMP on the switch. Supports SNMP
version 1and 2c management clients.
¾ SNMP Trap Destination: IP address of the trap manager to receive
notification messages from this switch. Traps indicating status changes are
issued by the switch to specified trap managers. You must specify trap
managers so that key events are reported by this switch to your
management station.
¾ SNMP Read Community: A community string that acts like a password and
permits access to the SNMP database on this switch. Authorized
management stations are only able to retrieve MIB objects.
¾ SNMP Trap Community: Community string sent with the notification
operation.
Ports
Port configuration ensures access to a switch port based on MAC address,
limits the total number of devices from using a switch port and protects
against MAC flooding attacks.
Port Configuration
In Port Configuration, you can set and view the operation mode for each port.
¾ Enable Jumbo Frames: This switch provides more efficient throughput for
large sequential data transfers by supporting jumbo frames on Gigabit
Ethernet ports up to 9216 bytes. Compared to standard Ethernet frames
that run only up to 1.5 KB, using jumbo frames significantly reduces the
per-packet overhead required to process protocol encapsulation fields.
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¾ Power Saving Mode: Adjusts the power provided to ports based on the
length of the cable used to connect to other devices. Only sufficient power is
used to maintain connection requirements.
¾ Mode: allow user to manually set the port speed such as Auto, 10 half, 10
Full, 100 Half, 100 Full, 1000 Full or Disabled. User may press Apply button
to complete the configuration procedure.
Figure 2-2
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 from 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.
Port Segmentation (VLAN) Configuration
¾ VLAN ID: ID of configured VLAN (1-4094, no leading zeroes).
¾ VLAN Configuration List: Lists all the current VLAN groups created for this
system. Up to 64 VLAN groups can be defined. VLAN 1 is the default
untagged VLAN.
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Figure 2-3
Aggregation
Port trunk allows multiple links to be bundled together and act as a single
physical link for increased throughput. It provides load balancing, and
redundancy of links in a switched inter-network. Actually, the link does not
have an inherent total bandwidth equal to the sum of its component physical
links. Traffic in a trunk is distributed across an individual link within the trunk in
a deterministic method that called a hash algorithm. The hash algorithm
automatically applies load balancing to the ports in the trunk. A port failure
within the trunk group causes the network traffic to be directed to the remaining
ports. Load balancing is maintained whenever a link in a trunk is lost or
returned to service.
Aggregation / Trunking Configuration
To assign a port to a trunk, click the required trunk number, then click Apply.
Figure 2-4
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LACP
IEEE 802.3ad Link Aggregation Control Protocol (LACP) increases bandwidth
by automatically aggregating several physical links together as a logical trunk
and providing load balancing and fault tolerance for uplink connections.
LACP Port Configuration
¾ Port: The port number.
¾ Enabled: Enables LACP on the associated port.
¾ Key Value: Configures a port's LACP administration key. The port
administrative key must be set to the same value for ports that belong to the
same link aggregation group (LAG). If this administrative key is not set when
an LAG is formed (i.e., it has the null value of 0), this key will automatically
be set to the same value as that used by the LAG.
Figure 2-5
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RSTP
IEEE 802.1w Rapid Spanning tree protocol (LACP) provides a loop-free
network and redundant links to the core network with rapid convergence to
ensure faster recovery from failed links, enhancing overall network stability
and reliability.
RSTP System Configuration
¾ System Priority: This parameter configures the spanning tree priority
globally for this switch. The device with the highest priority becomes the
STP root device. However, if all devices have the same priority, the device
with the lowest MAC address will then become the root device. Number
between 0 - 61440 in increments of 4096. Therefore, there are 16 distinct
values.
¾ Hello Time: Interval (in seconds) at which the root device transmits a
configuration message (BPDU frame). Number between 1-10 (default is 2).
¾ Max Age – The maximum time (in seconds) a device can wait without
receiving a configuration message before attempting to reconfigure. That
also means the maximum life time for a BPDU frame. Number between 6-40
(default is 20).
¾ Forward Delay: The maximum time (in seconds) the root device will wait
before changing states (i.e., discarding to learning to forwarding). Number
between 4 – 30 (default is 15).
¾ Force Version: Set and show the RSTP protocol to use. Normal - use RSTP,
Compatible - compatible with STP.
Figure 2-6-1
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RSTP Port Configuration
¾ Port: The port ID. It cannot be changed. Aggregations mean any configured
trunk group.
¾ Enabled: Click on the tick-box to enable/disable the RSTP protocol for the
port.
¾ Edge: Expect the port to be an edge port (linking to an end station) or a link
to another STP device.
¾ Path Cost: This parameter is used by the STP to determine the best path
between devices. Therefore, lower values should be assigned to ports
attached to faster media, and higher values assigned to ports with slower
media. Set the RSTP pathcost on the port. Number between 0 - 200000000.
0 means auto generated pathcost.
802.1X Configuration
IEEE802.1X provides a security standard for network access control, specially
in Wi-Fi wireless networks. 802.1x holds a network port disconnected until
authentication is completed. The switch uses Extensible Autentication Protocol
over LANS to exchange authentication protocol client identity with the client,
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and forward it to another remote RADIUS authentication server to verify
access rights. The EAP packet from the RADIUS server also contain the
authentication method to be used. The client can reject the authentication
method and request another, depending on the configuration of the client
software and the RADIUS server. Depending on the authenticated results, the
port is either made available to the user, or the user is denied access to the
network.
The RADIUS servers make the network a lot easier to manage for the
administrator by gathering and storing the user lists.
By default, 802.1x is disabled. To use EAP for security, select enabled and set
the 802.1X Global Settings for the Radius Server and applicable authentication
information.
RADIUS server IP: The IP ADDRESS OF THE EXTERNAL Radius Server, you
need to specify an RADIUS server to enable 802.1s authentication.
IGMP Snooping
IGMP Snooping is the process of listening to IGMP network traffic. IGMP
Snooping, as implied by the name, is a feature that allows a layer 2 switch to
“listen in” on the IGMP conversation between hosts and routers by processing
the layer3 IGMP packets sent in a multicast network.
When IGMP Snooping is enabled in a switch it analyzes all IGMP packets
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between hosts connected to the switch and multicast routers in the network.
When a switch hears an IGMP report from a host for a given multicast group,
the switch adds the host’s port number to the multicast list for that group. And,
when the switch hears an IGMP Leave, it removes the host’s port from the
table entry.
Prevents flooding of IP multicast traffic, and limits bandwidth intensive video
traffic to only the subscribers.
IGMP Configuration
¾ IGMP Enabled: When enabled, the switch will monitor network traffic to
determine which hosts want to receive multicast traffic.
¾ Router Ports: Set if ports are connecting to the IGMP administrative routers.
¾ Unregistered IPMC Flooding enabled: Set the forwarding mode for
unregistered (not-joined) IP multicast traffic. The traffic will flood when
enabled, and forward to router-ports only when disabled.
¾ IGMP Snooping Enabled: When enabled, the port will monitor network
traffic to determine which hosts want to receive the multicast traffic.
¾ IGMP Querying Enabled: When enabled, the port can serve as the Querier,
which is responsible for asking hosts if they want to receive multicast traffic.
Figure 2-7
Mirroring
Port Mirroring is used on a network switch to send a copy of network packets
seen on one switch port (or an entire VLAN) to a network monitoring
connection on another switch port. This is commonly used for network
appliances that require monitoring of network traffic, such as an
intrusion-detection system.
Mirroring Configuration
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¾ Port to Mirror to: The port that will “duplicate” or “mirror” the traffic on the
source port. Only incoming packets can be mirrored. Packets will be
dropped when the available egress bandwidth is less than ingress
bandwidth.
¾ Ports to Mirror: Select the ports that you want to mirror from this section of
the page. A port will be mirrored when the “Mirroring Enabled” check-box is
checked.
Figure 2-8
QoS
In QoS Mode, select QoS Disabled, 802.1p, or DSCP to configure the related
parameters.
QoS Configuration
¾ Strict: Services the egress queues in sequential order, transmitting all traffic
in the higher priority queues before servicing lower priority queues.
¾ WRR: Weighted Round-Robin shares bandwidth at the egress ports by
using scheduling weights with default values of 1, 2, 4, 8 for queues 0
through 7, respectively. (This is the default selection.)
※Note: WRR can only be selected if Jumbo Frame mode is disabled on the
Port Configuration page
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Figure 2-9-1
QoS Mode: QoS Disabled
When the QoS Mode is set to QoS Disabled, the following table is displayed.
QoS Mode: 802.1p
Packets are prioritized using the 802.1p field in the VLAN tag. This field is
three bits long, representing the values 0 - 7. When the QoS Mode is set to
802.1p, the 802.1p Configuration table appears, allowing you to map each of
the eight 802.1p values to a local priority queue (low, normal, medium or high).
The default settings are shown below.
When the QoS Mode is set to 802.1p, the 802.1p Configuration table is
displayed as shown below.
Figure 2-9-2
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QoS Mode: DSCP
DSCP: Packets are prioritized using the DSCP (Differentiated Services Code
Point) value. The Differentiated Services Code Point (DSCP) is a six-bit field
that is contained within an IP (TCP or UDP) header. The six bits allow the
DSCP field to take any value in the range 0 - 63. When QoS Mode is set to
DSCP, the DSCP Configuration table is displayed, allowing you to map each of
the DSCP values to a hardware output queue (low, normal, medium or high).
The default settings map all DSCP values to the high priority egress queue.
User can use the Prioritize Traffic drop-down list to quickly set the values in the
DSCP Configuration table to a common priority queue. Use Custom if you
want to set each value individually.
When the QoS Mode is set to DSCP, the DSCP Configuration table is
displayed as shown below.
Figure 2-9-4
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Figure 2-9-5
Filter Configuration
There are 3 mode that you can choice for filter configuration:
Disabled: this mode is protected from potential threats like hackers, if the traffic
from illegal MAC addresses will not be forwarded by the switch.
Static: This table displays the static MAC addresses connected, as well as the
VID
DHCP:
Figure 2-10
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PoE (Power over Ethernet) Configuration
PoE technology is a system to pass electrical power safely, along with data, on
Ethernet cabling. Power is supplied in common mode over two or more of the
differential pairs of wires found in the Ethernet cables and comes from a power
supply within a PoE enabled networking devise such as Switch or can be
injected into a cable run with a midspan power supply.
This figure shows all the PoE ‘s status when connect or disconnect to the PD
devise.
¾ PoE Enabled: POE of the port is able to supply power to the attached PD
(Powered Device)
¾ PD Class: Detect the class of PD
¾ Delivering Power (W): Output power.
¾ Current (mA): The status of the port current
¾ Power output voltage per port
¾ Power Budget Percentage of PoE power has been used
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Rate Limit Configuration
Type of Port: You can define the certain port as Policer and Shaper before you
set up the rate limit.
No Limit: This drop-down menu allows you to specify that the selected port
will have no bandwidth limit.
Rate Limit: There is also allow you to enter the data rate, in Kbits per second,
this can limit for the selected port. The value is between 128kbps – 3968kbps.
Figure 2-11
Storm Control
Broadcast storms may occur when a device on your network is malfunctioning,
or if application programs are not well designed or properly configured. If there
is too much broadcast traffic on your network, performance can be severely
degraded or everything can come to complete halt.
You can protect your network from broadcast storms by setting a threshold for
broadcast traffic for each port. Any broadcast packets exceeding the specified
threshold will then be dropped.
Storm Control Configuration
There are three type of traffic which can be rate limited, including broadcast
multicast frame and Flooded Uncast Rate.
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Figure 2-12-1
¾ Enable Rate Limit: Click the check box to enable storm control.
¾ Rate (number of frames per second): The Rate field is set by a single
drop-down list. The same threshold is applied to every port on the switch.
When the threshold is exceeded, packets are dropped, irrespective of the
flow-control settings.
¾ Web: Click PORTS, Storm Control. This page enables you to set the
broadcast storm control parameters for every port on the switch.
Figure 2-12-2
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Monitorning
Statistic Overview
Statistic Overview for all ports
User can mirror traffic from any source port to a target port for real-time
analysis the following figures shows clearly the statistics overview.
Figure 3-1
Detailed Statics
To view the statistics of individual ports, click one of the linked port numbers for
details.
Clear: To renew the details collected and displayed.
Refresh: To reset the details displayed.
Figure 3-2
LACP Status
LACP Aggregation Overview
LACP allows for the automatic detection of links in a Port Trunking Group
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Figure 3-3-1
¾ Port: The port number.
¾ Port Active: Shows if the port is a member of an active LACP group.
¾ Partner Port Number: A list of the ports attached at the remote end of this
LAG link member.
¾ Operational Port Key: Current operational value of the key used by this
LAG.
LACP Port Status
Active LACP ports are capable of processing and sending LACP control
frames. This allows LACP compliant devices to negotiate the aggregated link
so the group may be changed dynamically as needs requires.
Figure 3-3-2
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RSTP Status
RSTP VLAN Bridge Overview
Figure 3-4
¾ Hello Time: Interval (in seconds) at which the root device transmits a
configuration message.
¾ Max Age: The maximum time (in seconds) a device can wait without
receiving a configuration message before attempting to reconfigure. All
device ports (except for designated ports) should receive configuration
messages at regular intervals. Any port that age out STA information
(provided in the last configuration message) becomes the designated port
for the attached LAN. If it is a root port, a new root port is selected from
among the device ports attached to the network.
¾
¾
Fwd Delay: The maximum time (in seconds) the root device will wait before
changing states (i.e., discarding to learning to forwarding). This delay is
required because every device must receive information about topology
changes before it starts to forward frames. In addition, each port needs time
to listen for conflicting information that would make it return to a discarding
state; otherwise, temporary data loops might result.
Topology: Indicates if spanning tree topology is steady or undergoing
reconfiguration. (The time required for reconfiguration is extremely short, so
no values other that “steady” state are likely to be seen in this field.)
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¾
Root ID : The priority and MAC address of the device in the Spanning Tree
that this switch has accepted as the root device, and the port connected to
the root device.
RSTP Port Status
¾ Port/Group: The number of a port or the ID of a static trunk.
¾ Path Cost: The cost for a packet to travel from this port to the root in the
current Spanning Tree configuration. The slower the media, the higher the
cost.
¾ Edge Port: Shows if this port is functioning as an edge port, either through
¾ manual selection (see the RSTP Port Configuration table) or auto-detection.
Note that if the switch detects another bridge connected to this port, the
manual setting for Edge Port will be overridden, and the port will instead
function as a point-to-point connection.
¾ P2P Port: Shows if this port is functioning as a Point-to-Point connection to
exactly one other bridge. The switch can automatically determine if the
interface is attached to a point-to-point link or to shared media. If shared
media is detected, the switch will assume that it is connected to two or more
bridges.
¾ Protocol: Shows the spanning tree protocol functioning on this port, either
RSTP or STP (that is, STP-compatible mode).
IGMP Status
IGMP Status
IGMP Status shows the IGMP Snooping statistics for the whole switch.
¾ VLAN ID: VLAN ID number.
¾ Querier: Show whether Querying is enabled.
¾ Queries transmitted: Show the number of transmitted Query packets.
¾ Queries received: Show the number of received Query packets.
¾ v1 Reports: Show the number of received v1 Report packets.
¾ v2 Reports: Show the number of received v2 Report packets.
¾ v3 Reports: Show the number of received v2 Report packets.
¾ v3 Leave: Show the number of v3 leave packets received.
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Figure 3-5
VeriPHY
VeriPHY Cable Diagnostics
User can perform cable diagnostics for all ports or selected ports to diagnose
any cable faults (short, open etc..) and feedback a distance to the fault.
¾ Cable Diagnostics: Cable diagnostics is performed on a per-port basis.
Select the port number from the drop-down list.
¾ Cable Status: Shows the cable length, operating conditions and isolates a
variety of common faults that can occur on Category 5 twisted pair cabling.
Figure 3-6
Ping
This command sends ICMP echo request packets to another node on the
network.
Ping Parameters
¾ Target IP Address: IP address of the host
¾ Count: Number of packets to send. (Range: 1-20)
¾ Time Out: setting the time period of host will be Ping
Use the ping command to see if another site on the network can be reached.
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The following are some results of the ping command:
¾ Normal response: The normal response occurs in one to ten seconds,
depending on network traffic.
¾ Destination does not respond: If the host does not respond, a “timeout”
appears in ten seconds.
¾ Destination unreachable: The gateway for this destination indicates that
the destination is unreachable.
¾ Network or host unreachable: The gateway found no corresponding entry
in the route table.
Press <Esc> to stop pinging.
Figure 3-7-1
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Figure 3-7-2
Figure 3-7-3
Maintenance
Warm Restart
Press Yes button to restart the switch, the reset will be complete when the
power lights stop blinking.
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Figure 4-1
Factory Default
Forces the switch to restore the original factory settings. To reset the switch,
select “Reset to Factory Defaults” from the drop-down list and click Apply. The
LAN IP Address, Subnet Mask and Gateway IP Address will be reset to their
factory
Figure 4-2
Software upload
Select “Upgrade Firmware” from the Tools drop-down list then click on the
“Browse” button to select the firmware file. Click the APPLY button to upgrade
the selected switch firmware file. User can download firmware files for user’s
switch from the Support section of your local supplier.
Figure 4-3
Configuration File Transfer
Configuration file transfer allows you to save the switch’s current configuration
or restore a previously saved configuration back to the device. Configuration
files can be saved to any location on the web management station. To upload
the configuration file to save a configuration or "Download" to restore a
configuration. Use the Browse button to choose a file location on the web
management station, or to find a saved configuration file.
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Figure43-4
Logout
The administrator has write access for all parameters governing the onboard
agent. User should therefore assign a new administrator password as soon as
possible, and store it in a safe place.
Figure 4-5
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Reset button for the factory default setting
Please take the following steps to reset the Web Smart Switch back to the
original default:
Step 1:
Turn on the Web Smart Switch
Step 2:
Press and hold the reset button continuously for 5 seconds and release the
reset button.
Step 3:
The switch will reboot for 20 seconds and the configuration of switch will back
to the default setting.
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