Connecting the Unit ................................................................................................................................................... 13
Mode of Operation .................................................................................................................................................................. 17
Port Mirroring ......................................................................................................................................................................... 17
Port Trunking .......................................................................................................................................................................... 17
Quality of Service (QoS) ......................................................................................................................................................... 17
Virtual LAN ............................................................................................................................................................................ 18
Rapid Spanning Tree Protocol ................................................................................................................................................ 19
DHCP Server ........................................................................................................................................................................... 21
Port Security—MAC Address Based ...................................................................................................................................... 21
Web Software Configuration ..................................................................................................................................... 23
Web Management ................................................................................................................................................................... 23
Web Management - Home ...................................................................................................................................................... 24
Administration – System ......................................................................................................................................................... 26
DHCP – Server – Setup Profiles ............................................................................................................................................. 34
DHCP – Server – Setup IP Maps ............................................................................................................................................ 36
DHCP – Server – View Bindings ............................................................................................................................................ 41
DHCP – Relay & Local IP - Setup .......................................................................................................................................... 42
LLDP - Status .......................................................................................................................................................................... 47
Ports – MAC Security – Learning ........................................................................................................................................... 52
Ports – MAC Security – Authorization List ............................................................................................................................ 55
Ports – MAC Security – Intruder Log ..................................................................................................................................... 56
Bridging – Show MAC by Port ............................................................................................................................................... 72
IGMP – Show Group and Show Router .................................................................................................................................. 82
N-Ring – Status ....................................................................................................................................................................... 93
N-Link – Status ..................................................................................................................................................................... 101
CIP – Status ........................................................................................................................................................................... 107
Support – Web Site and E-mail ............................................................................................................................................. 109
Help – Overview ................................................................................................................................................................... 119
Help – Administration ........................................................................................................................................................... 120
Help – DHCP ........................................................................................................................................................................ 121
Help – LLDP ......................................................................................................................................................................... 122
Help – Ports ........................................................................................................................................................................... 123
Help – Statistics ................................ ................................ ................................................................ ..................................... 124
Help – VLAN ........................................................................................................................................................................ 125
Help – Bridging ..................................................................................................................................................................... 126
Help – RSTP ......................................................................................................................................................................... 127
Help – IGMP ......................................................................................................................................................................... 128
Help – N-View ................................................................ ................................................................ ...................................... 129
Help – N-Ring ....................................................................................................................................................................... 130
Help – N-Link ....................................................................................................................................................................... 131
Help – CIP ............................................................................................................................................................................. 132
Help – Firmware/Config ....................................................................................................................................................... 133
Help – Rate Limiting ............................................................................................................................................................. 134
Help – User Management ...................................................................................................................................................... 135
Help – Other ................................................................ ................................................................ ................................ .......... 136
Show or Set CIP Configuration ............................................................................................................................................. 140
Save or Reset the Configuration Settings .............................................................................................................................. 141
Show or Clear Idle Task Statistics ........................................................................................................................................ 141
Show or Set IGMP Configuration ......................................................................................................................................... 142
Show or Set Mirror Configuration ........................................................................................................................................ 143
Show or Set N-Ring Configuration ....................................................................................................................................... 144
Show or Set N-View Configuration ...................................................................................................................................... 144
Ping a Host ............................................................................................................................................................................ 145
Show or Set Port Configuration ............................................................................................................................................ 146
Reset the Switch .................................................................................................................................................................... 147
Show or Set SNMP Configuration ........................................................................................................................................ 147
Show or Clear the Last System Error .................................................................................................................................... 148
Show System Information ..................................................................................................................................................... 148
Set or Show the System IP Configuration ............................................................................................................................. 149
Show or Set System Configuration ....................................................................................................................................... 150
VLAN Addition and Deletion Example ................................................................................................................... 151
Example 1 – Basic understanding of port-based VLANs ...................................................................................................... 157
Example 2 – Basic understanding of tagged VLANs (Admit – Tagged Only) ..................................................................... 158
Example 3 – Basic understanding of tagged VLANs (Admit – All) ..................................................................................... 159
Example 4 – Basic understanding of Hybrid VLANs ........................................................................................................... 160
Example 5 – Basic understanding of Overlapping VLANs................................................................................................... 161
Example 6 – Basic understanding of VLANs with Multicast Filtering ................................................................................. 162
Appendix A. XML Settings File Example .............................................................................................................. 166
o 1000BaseSX/LX Ports, LC style, and/or
o 1000BaseT Ports, RJ45 style
• Extended Environmental Specifications
• Auto Sensing 10/100BaseTX, Duplex, and MDIX
• Offers Rapid Spanning Tree Protocol
• Trunk with other N-Tron trunking capable switches
over two ports
• Store & Forward Technology
• Plug and Play IGMP Support
• Rugged Rack Mount Enclosure
• Onboard Temperature Sensor
• Configuration Backup via optional SD Card
(NTCD-128)
•
• Power Input:
o 7026TX: Redundant DC Input (18-49VDC)
o 7026TX-AC: (90–264VAC) or (90-300VDC)
• Web Browser Management with detailed ring map and
fault location charting.
• Web Browsing and N-View Switch Monitoring
PRODUCT CONFIGURATIONS
• 7026TX-XX
– Twenty Four 10/100 Base-TX RJ45 Copper Ports, and
two optional SFP transceivers
Where: XX = AC for AC voltage option. Blank otherwise.
Supported SFP (Mini-GBIC) Fiber Transceivers:
NTSFP-SX (LC Style Connector, up to 550m)
NTSFP-LX-10 (LC Style Connector, up to 10km)
NTSFP-LX-40 (LC Style Connector, up to 40km)
NTSFP-LX-80 (LC Style Connector, up to 80km)
The N-TRON 7026 Series Industrial Ethernet Switch offers outstanding performance and ease of use. It is
ideally suited for connecting Ethernet enabled industrial and or security equipment and is a fully managed
switch.
(Revised 2011-11-15) Page 4 of 169
7026TX Industrial Ethernet Switch Accessories
NTCD-128
Configuration Device
Ideal for saving, or restoring switch configuration
parameters quickly without the need for a computer or
software. One configuration device per switch is
recommended.
The SD and USB connectors are for temporary connection only. Do not use, connect, or disconnect unless
area is known to be non-hazardous. Connection or disconnection in an explosive atmosphere could result in
an explosion.
The configuration device is inserted in the back of the 7026TX.
All rights reserved. Reproduction, adaptation, or translation without prior written permission from N-Tron
Corporation is prohibited, except as allowed under copyright laws.
Ethernet is a registered trademark of Xerox Corporation. All other product names, company names, logos
or other designations mentioned herein are trademarks of their respective owners.
The information contained in this document is subject to change without notice. N-Tron Corporation makes
no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of
merchantability or fitness for a particular purpose. In no event shall N-Tron Corporation be liable for any
incidental, special, indirect or consequential damages whatsoever included but not limited to lost profits
arising out of errors or omissions in this manual or the information contained herein.
Warning
Do not perform any services on the unit unless qualified to do so. Do not substitute unauthorized parts or
make unauthorized modifications to the unit.
Do not operate the unit with the top cover removed, as this could create a shock or fire hazard.
Do not block the air vents on the sides or the top of the unit.
Do not operate the equipment in the presence of flammable gasses or fumes. Operating electrical equipment
in such an environment constitutes a definite safety hazard.
Do not operate the equipment in a manner not specified by this manual.
(Revised 2011-11-15) Page 6 of 169
SAFETY WARNINGS
GENERAL SAFETY WARNINGS
WARNING: If the equipment is used in the manner not specified by N-Tron Corp., the protection
provided by the equipment may be impaired.
LASER SAFETY (Optional NTSFP-LX -40 and -80)
CAUTION: CLASS 1 LASER PRODUCT. Do not stare into the laser!
Contact Information
N-Tron Corp.
820 South University Blvd. Suite 4E
Mobile, AL 36609
TEL: (251) 342-2164
FAX: (251) 342-6353
WEBSITE: www.n-tron.com
E-MAIL: N-TRON_Support@n-tron.com
ENVIRONMENTAL SAFETY
WARNING: The unit may become very hot to the touch in high temperature environments, so extreme
caution should be exercised in handling when energized. The unit should be disconnected from power and
allowed to cool for approximately 5 minutes before touching in high temperature applications.
ELECTRICAL SAFETY
WARNING: Disconnect the power cable before removing the top cover.
WARNING: Do not operate the unit with the any cover removed.
WARNING: Properly ground the unit before connecting anything else to the unit. Units not properly
grounded may result in a safety risk and could be hazardous and may void the warranty. See the grounding
technique section of this user manual for proper ways to ground the unit.
WARNING: Do not work on equipment or cables during periods of lightning activity.
WARNING: Do not perform any services on the unit unless qualified to do so.
(Revised 2011-11-15) Page 7 of 169
WARNING: Do not block the air vents.
WARNING: Observe proper DC Voltage polarity when installing power input cables. Reversing voltage
polarity can cause permanent damage to the unit and void the warranty.
Hazardous Location Installation Requirements
1. This equipment is suitable for use in Class I, Division 2, Groups A, B, C, and D or non-hazardous
locations only.
2. WARNING: Explosion Hazard – Substitution of components may impair suitability for Class I,
Div. 2.
3. WARNING: Explosion Hazard - do not disconnect while circuit is live, unless area is known to be
non-hazardous.
4. WARNING: Explosion Hazard – do not replace the device unless power has been switched off or
the area is known to be non-hazardous.
5. Surrounding Air Temperature Range: -40°C to 80°C
6. 7026TX must be powered by a Class 2 source evaluated to UL1310 only.
7. Use 105°C or higher rated Copper wire, (0.22Nm) 2lb/in Tightening torque for field installed
conductors.
8. WARNING: exposure to some chemicals may degrade the sealing properties of materials used in
the following devices and should be periodically inspected for any degradation and replaced as
necessary;
Relay (U25) – Panasonic, Part No. TX2SS-3V
Relay Cover - Constructed of liquid crystal polymer (LCP), Type FC-110, manufactured by Nippon
Oil Corporation.
Body –constructed of liquid crystal polymer (LCP), Type 2125G, manufactured by Ueno Fine
Chemicals Industry LTD.
Epoxy – Constructed of Epoxy resin, Type A-2500BK, manufactured by Resinous Kasei Co., Ltd.
(Revised 2011-11-15) Page 8 of 169
Please make sure the 7026 Series Ethernet Switch package contains the following items:
1. 7026 Series Switch
2. Product CD
Contact your carrier if any items are damaged.
Installation
Read the following warning before beginning the installation:
WARNING
Never install or work on electrical equipment or cabling during periods of lightning activity. Never connect
or disconnect power when hazardous gasses are present.
Disconnect the power cable before removing any enclosure panel.
UNPACKING
Remove all the equipment from the packaging, and store the packaging in a safe place. File any damage
claims with the carrier.
(Revised 2011-11-15) Page 9 of 169
CLEANING
Clean only with a damp cloth.
RACK AND PANEL MOUNTING
The 7026 Series comes configured with standard rack mount brackets which may be used to mount our
products to standard 19" racks. As an alternative we offer our 7026 Panel Mount Assembly (P/N: 7026PM) which may be used to securely mount the 7026 Series products to a panel or other flat surface.
A clearance of 1 inch should be observed on the sides, back, top and bottom to allow proper ventilation.
Also a cable bend radius of 2 inches should be observed for the front and back side of the unit.
▪PANEL MOUNTING
▪RACK MOUNTING
From Left to Right:
RJ45 Ports Auto Sensing 10/100 Base-TX Connections
Gigabit Ports 1000 Base SFP Copper or Fiber Transceivers (Optional)
LED lights when Power is supplied to the unit
(Revised 2011-11-15) Page 10 of 169
NOTE: The RJ45 data port has two LEDs located on each connector. The left LED indicates LINK status,
LED
Color
Description
GREEN
Power is ON
RED
Power is ON and a fault condition exists
OFF
Power is OFF
LNK
GREEN
10/100/1000Mb Link between ports
OFF
No Link between ports
ACT
GREEN
Data is active between ports
OFF
Data is inactive between ports
and the right LED indicates ACTIVITY.
LEDs: The table below describes the operating modes:
APPLYING POWER AND FAULT CONNECTIONS (Back View)
7026TX with DC Power Supply Installed
Unscrew & Remove the DC Voltage Input
Plug from the Power Input Header
Install the DC Power Cables into the Plug
(observing polarity).
Plug the Voltage Input Plug back into the
Power Input Header.
Tightening torque for the terminal block
power plug is 0.5 Nm/0.368 Pound Foot.
Verify the Power LED stays ON.
Notes:
When a DC Power supply is installed, only one power supply must be connected to power for
minimal operation. For redundant power operation, V1 and V2 inputs must be connected to separate
DC Voltage sources. This device will draw current from both sources simultaneously. Use 16-28
gauge wire when connecting to the power supply.
Recommended 24V DC Power Supplies, similar to: N-Tron‘s P/N NTPS-24-1.3
(Revised 2011-11-15) Page 11 of 169
Input AC 115/230V
Output DC 24-28V
Output Current 1.3A @ 24V
1.0A @ 28V
Power 30W
35 mm DIN-Rail Mountable
Dimensions: 45X75X91 mm
7026TX with AC Power Supply Installed
Unscrew & Remove the AC Voltage Input
Plug from the Power Input Header
Install the AC Power Cables into the Plug
(observing polarity).
Plug the Voltage Input Plug back into the
Power Input Header.
Tightening torque for the terminal block
power plug is 0.5 Nm/0.368 Pound Foot.
Verify the Power LED stays ON.
When an AC Power supply is installed (i.e., the –AC option), Use 12-24 gauge wire when
connecting to the power supply.
(Revised 2011-11-15) Page 12 of 169
7026TX Fault Pins
The Fault pins on the back of the 7026TX can be used for an
alarm contact. The current carrying capacity is 1A at 24VDC.
It is normally open and the relay closes when a fault condition
occurs. These pins can be used to connect an external warning
device such as a light in order to provide an external alarm.
The conditions for generating a fault condition (closing the
relay) can be configured through software.
Connecting the Unit
For FX/FXE units, remove the dust cap from the fiber optic connectors and connect the fiber optic cables.
The TX port on the FX/FXE models should be connected to the RX port of the far end station. The RX port
on the FX/FXE versions should be connected to the TX port of the far end station.
For 10/100 Base-TX ports, plug a Category 5E twisted pair cable into the RJ45 connector. Connect the
other end to the far end station. Verify that the LNK LEDs are ON once the connection has been completed.
To connect any port to another device (end node, Switch or Repeater), use a standard Category 5E straight
through or crossover cable with a
minimum length of one meter and a
maximum length of 100 meters.
N-Tron recommends the use of premanufactured Cat5E cables to ensure the
best performance. If this is not an option
and users must terminate their own ends
on the Cat5E cables; one of the two color
coded standards shown to the right should
be utilized. If a user does not follow one
of these two color code standards then the
performance and maximum cable distance
will be reduced significantly, and may
prevent the switch from establishing a
link.
Warning: Creating a port to port connection on the same switch (i.e. loop) is an illegal operation and
will create a broadcast storm which will crash the network!
(Revised 2011-11-15) Page 13 of 169
N-TRON SWITCH GROUNDING TECHNIQUES
The grounding philosophy of any control system is an integral part of the design. N-Tron switches are
designed to be grounded, but the user has been given the flexibility to float the switch when required. The
best noise immunity and emissions (i.e. CE) are obtained when the N-Tron switch chassis is connected to
earth ground via a drain wire. In the case of both the DC and AC Power supply options for the
7026TX/7026TX-AC the power supply is isolated from chassis ground. Therefore the user must not attempt
to ground the switch to earth ground via the power supply. In other N-Tron switches it is common to use
the V- for the purpose of grounding. This must NOT be attempted in the 7026TX or 7026TX-AC.
In the case of the AC power supply option (i.e., 7026TX-AC) the
chassis may be connected to earth ground using the safety input of
the input power plug labeled ―GND‖ (refer to the drawing above
which shows the pin out of the AC power plug) or using the
ground lug located at the rear of the chassis (see adjacent
illustration).
In the case of the 7026TX, the only viable safety ground option is
using the ground lug at the rear of the chassis (see adjacent
illustration).
If the use of shielded cables is required, it is generally
recommended to only connect the shield at one end to prevent ground loops and interfere with low level
signals (i.e. thermocouples, RTD, etc.). Cat5e cables manufactured to EIA-568A or 568B specifications are
required for use with N-Tron Switches.
In the event all Cat5e patch cable distances are small (i.e. All Ethernet devices are located in the same local
cabinet and/or referenced to the same earth ground), it is permissible to use fully shielded cables terminated
to chassis ground at both ends in systems void of low level analog signals.
(Revised 2011-11-15) Page 14 of 169
RJ45 CONNECTOR CRIMP SPECIFICATIONS
Please reference the illustration below for your Cat5 cable specifications:
(Revised 2011-11-15) Page 15 of 169
USB INTERFACE
The 7026TX Series switches provide a USB interface accessed via the USB connector labeled as ―USB‖ on
the unit. This is used to access the Command Line Interpreter (CLI).
USB Cable
Connect the USB port of your PC and the Switch using a standard USB cable. You will require a cable with
a Type A connector for the PC end, and a Type B connector for the Switch end.
Standard USB cables are readily available from a variety of computer stores.
HyperTerminal
The following configuration should be used in HyperTerminal:
Port Settings: 115200
Each port on the switch can be configured into different modes of operation as shown below:
Copper Ports: 1000Base Copper/Fiber Ports:
- Half Duplex - Full Duplex
- Full Duplex
- Auto Negotiation
Half Duplex
In half duplex mode, the CSMA/CD media access method is the means by which two or more stations share
a common transmission medium. To transmit, a station waits (defers) for a quiet period on the medium (that
is, no other station is transmitting) and then sends the intended message in bit-serial form. If, after initiating
a transmission, the message collides with that of another station, then each transmitting station intentionally
transmits for an additional predefined period to ensure propagation of the collision throughout the system.
The station remains silent for a random amount of time (back-off) before attempting to transmit again.
Full Duplex
Full duplex operation allows simultaneous communication between a pair of stations using point-to-point
media (dedicated channel). Full duplex operation does not require that transmitters defer, nor do they
monitor or react to receive activity, as there is no contention for a shared medium in this mode.
Auto Negotiation
In Auto Negotiation mode, the port / hardware detects the mode of operation of the station that is connected
to this port and sets its mode to match the mode of the station.
Port Mirroring
A Mirroring Port is a dedicated port that is configured to receive the copies of Ethernet frames that are being
transmitted out and also being received in from any other port that is being monitored.
Port Trunking
Port Trunking is the ability to group two network ports to increase the bandwidth between two machines
(switch or any work station). This feature allows grouping of high-speed connectivity and provides
redundant connection between switches, so that a trunk can act as a single link between the switches.
Quality of Service (QoS)
Quality of service (QoS) refers to resource reservation control mechanisms. Quality of service is the ability
to provide different priority to different applications, users, or data flows. Quality of service guarantees are
important if the network capacity is insufficient, especially for real-time streaming multimedia applications
such as voice over IP, online games and IP-TV, since these often require fixed bit rate and are delay
sensitive, and in networks where the capacity is a limited resource, for example in cellular data
communication. In the absence of network congestion, QoS mechanisms are not required.
(Revised 2011-11-15) Page 17 of 169
Each of these three QOS methods below is included or not based on the settings on the relevant browser
page:
When Force High Priority is enabled, the port based priority is included in the decision for all ports and all
frames received on a port will use the default QOS priority for that port in the decision. For example, if it is
desired to have ingress frames on a port egress to the highest priority transmit queue regardless of other
factors, then enable Force High Priority and set the port's Default Port Priority to 7.
Virtual LAN
The switch provides support for setting up tagged Virtual LANs (Local Area Networks). A port may belong
to any number of Virtual LANs. The VLAN membership of a device is determined by the VLAN(s) that
have been defined for the port to which the device is connected. If a device should move from one port to
another, it loses its current VLAN membership and inherits that of the new port it is connected to.
VLANs facilitate easy administration of logical groups of devices that can communicate as if they
were on the same LAN. Traffic between VLANs is restricted, unless the ports are explicitly configured as overlapping VLANs. Switches forward unicast, multicast, and broadcast traffic only on LAN segments
that serve the VLAN to which the traffic belongs.
A Default Virtual LAN (VID=1) exists to which a port, which is not a member of any other Virtual LAN,
will belong. This allows the switch to operate as a ‗normal‘ switch when it is used in a network. A port is
automatically removed from the Default VLAN when it is reconfigured to belong to another Virtual LAN,
because that is the most common operation. But, if desired, the port can be included in VLAN 1 by
configuring VLAN 1 last.
If switch ports are configured to transmit and receive untagged frames, end devices are able to communicate
throughout the LAN. Using Tagged VLANs, the switch has the ability to take non-tagged packets in some
ports, add a VLAN tag to the packet and send it out tagged ports on the switch. The VLANs can also be
configured to accept tagged packets in tagged ports, strip the tags off the packets, and send the packets back
out other untagged ports. This allows a network administrator to set up the switch to support devices on the
network that do not support VLAN Tagged packets. The administrator can also set up the ports to discard
any packets that are tagged or to discard any packets that are untagged based on a hybrid VLAN of both
tagged and untagged ports, and using the VLAN Ingress Filter on the switch.
For each switch port there is one and only one PVID (port VLAN ID) setting. If an incoming frame is
untagged and untagged frames are being accepted, then that frame will inherit the tag of the PVID value for
that port. Subsequent switch routing and treatment will be in accordance with that VLAN switch map. By
configuring PVIDs properly and configuring for all frames to exit untagged, the switch can achieve a ‗port
VLAN‘ configuration in which all frames in and out can be untagged, thus not requiring external devices to
be VLAN cognizant.
To understand how a VLAN configuration will perform, first look at the port on which the frame enters the
switch, then the VLAN ID (if the frame is tagged) or the PVID (if the frame is untagged). The VLAN
defined by the VID or PVID defines a VLAN group with a membership of ports. This membership
determines whether a port is included or excluded as to frame egress from the switch.
(Revised 2011-11-15) Page 18 of 169
The 7026 Series switch also has the ability to allow overlapping VLANs. Overlapping VLANs give the
user the ability to have one or more ports share two or more VLAN groups. For more information and
examples on how this could be implemented, please see the ‗VLAN Configuration Examples‘ in this
document, and/or our website‘s technical documents. Note that RSTP on overlapping VLANs is not
supported and the system will automatically disable RSTP on all but the lowest VID VLANs that have
overlapping ports.
Rapid Spanning Tree Protocol
The Rapid Spanning Tree Protocol as specified in IEEE 802.1D-2004 is supported. One Spanning Tree per
non-overlapping VLAN is supported. The Rapid Spanning Tree Protocol (RSTP) supersedes the Spanning
Tree Protocol (STP) which was described in IEEE 802.1D-1998. The RSTP is used to configure a simply
connected active network topology from the arbitrarily connected bridges of a bridged network. Bridges
effectively connect just the LANs to which their forwarding ports are attached. Ports that are in a blocking
state do not forward frames. The bridges in the network exchange sufficient information to automatically
derive a spanning tree.
RSTP allows for much quicker learning of network topology changes than the older STP. RSTP supports
new and improved features such as rapid transition to forwarding state. RSTP also sends out new BPDUs
every hello time instead of just relaying them. RSTP interoperates with older STP switches by falling back
to the older STP when the older BPDUs are detected on bridge ports. The user can also manually configure
bridge ports to use the older STP when desired.
SNMP Traps
The 7026 Series switch supports up to 5 SNMP Trap Stations to which SNMP Traps will be sent. The
switch supports six standard traps; Link Up, Link Down, Cold Start, Warm Start, Authentication Errors, and
power supply failure. SNMP Traps will be sent to all the trap stations configured on the switch when the
corresponding trap is enabled.
IGMP Snooping
IGMP Snooping is enabled by default, and the switch is Plug and Play for IGMP. IGMP snooping provides
intelligent network support for multicast applications. In particular, unneeded traffic is reduced. IGMP
Snooping is configured via the web console and if enabled, operates dynamically upon each power up.
Also, there can be manual only or manual and dynamic operation. Note that ―static multicast group address‖ can be used whether IGMP Snooping is enabled or not.
IGMP Snooping will function dynamically without user intervention. If some of the devices in the LAN do
not understand IGMP, then manual settings are provided to accommodate them. The Internet Group
Management Protocol (IGMP) is a protocol that provides a way for a computer to report its multicast group
membership to adjacent ‗routers‘. In this case N-Tron 7026 series switches provide router-like
functionality. Multicasting allows one computer to send content to multiple other computers that have
identified themselves as interested in receiving the originating computer's content. Multicasting can be used
to transmit only to an audience that has joined (and not left) a multicast group membership. IGMP version 2
is formally described in the Internet Engineering Task Force (IETF) Request for Comments (RFC) 2236.
IGMP version 1 is formally described in the Internet Engineering Task Force (IETF) Request for Comments
(RFC) 1112. The 7026 series supports v1 and v2.
(Revised 2011-11-15) Page 19 of 169
N-Ring
N-Ring is enabled by default, and the switch is Plug and Play for N-Ring except that initially one must
enable an N-Ring enabled device to be the N-Ring Manager for a given N-Ring. Subsequently, N-Ring
operates dynamically upon each power up. Using N-Tron's proprietary N-Ring technology offers expanded
ring size capacity, detailed fault diagnostics, and a standard healing time of 30ms. The N-Ring Manager
periodically checks the health of the N-Ring via health check packets. If the N-Ring Manager stops
receiving the health check packets, it times out and converts the N-Ring to a backbone within 30ms. When
using all N-Ring enabled switches in the ring, a detailed ring map and fault location chart is also provided
on the N-Ring Manager‘s web browser. N-Ring status is also sent from the N-Ring Manager to the N-View
OPC Server to identify the health status of the ring. Up to 250 N-Ring enabled switches can participate in
one N-Ring topology. Switches that do not have N-Ring capability may be used in an N-Ring, however the
ring map and fault location chart cannot be as detailed at these locations.
N-Link
The purpose of N-Link is to provide a way to redundantly couple an N-Ring topology to one or more other
topologies, usually other N-Ring topologies. Each N-Link configuration requires 4 switches: N-Link
Master, N-Link Slave, N-Link Primary Coupler, and N-Link Standby Coupler. N-Link will monitor the link
status of the Primary and Standby Coupler links. While the Primary Coupler link is healthy, it will forward
network traffic and the Standby Coupler link will block network traffic. When a problem is detected on the
Primary Coupler link, the Primary Coupler link will block network traffic and the Standby Coupler link will
forward network traffic. While the N-Link Master and Slave are in communication via the Control link,
only one Coupler link (Primary or Standby) will forward network traffic while the other Coupler link will
block network traffic.
CIP
The CIP (Common Industrial Protocol) feature allows N-Tron switches to directly provide switch
information and configuration access to Programmable Logic Controller (PLC) and Human Machine
Interface (HMI) applications via a standardized communication protocol. For example, a PLC may be
programmed to monitor port links or N-Ring status and cause a status indicator to turn red on an HMI if a
port goes link down or if N-Ring has a fault. CIP is formally described in ODVA Publication Number
PUB00001 (Volume 1: Common Industrial Protocol (CIP™)), and Publication Number: PUB00002
(Volume 2: EtherNet/IP Adaptation of CIP). N-Tron provides EDS and ICO files. N-TRON_CIP_Tags.pdf
is for a particular environment, but reveals the tags available.
DHCP
The Dynamic Host Configuration Protocol (DHCP) provides configuration parameters to Internet hosts.
DHCP is built on a client-server model, where designated DHCP server hosts allocate network addresses
and deliver configuration parameters to dynamically configured hosts. DHCP is controlled by RFC 2131.
The N-Tron DHCP Switch can be configured to be a DHCP Client. Alternately the N-Tron DHCP switch
can be configured to be a DHCP Server, a DHCP Relay Agent, or both.
For more detailed information on N-Tron DHCP features, reference: http://www.n-tron.com/tech_docs.php.
Under ‗White papers‘, see. ―Using DHCP to Minimize Equipment Setup Time‖.Under ‗Installation Guides
and User Manuals‘ see ―DHCP Technical Instructions for 708 / 716/ 7026 / 7506 Series‖.
(Revised 2011-11-15) Page 20 of 169
DHCP Client
The switch will automatically obtain an IP assignment from a DHCP Server, or optionally Fallback to a
configured IP assignment if unable to get an IP assignment from a DHCP server. Communication between
the client and server can optionally go through a DHCP Relay Agent.
DHCP Relay Agent
DHCP Relay Agent (Option 82) allows communication between the client and server to cross subnet and
VLAN boundaries. It also allows for a device on a specific port to receive a specific IP address and if the
device is replaced, the replacement receives the same IP address as the original device.
DHCP Server
DHCP Server allows DHCP Client devices to automatically obtain an IP assignment. IP assignments can be
set up as a dynamic range of IP addresses available to any client device; or specific IP addresses based on
the clients MAC address, Client ID (Option 61), or Relay Agent connection (Option 82).
LLDP
Link Layer Discovery Protocol (LLDP) is a Layer 2 discovery protocol that allows devices attached to an
IEEE802 LAN to advertise to other devices the major capabilities they have and to store information they
discover in a MIB that can be accessed through SNMP. LLDP is formally described in IEEE Standard -
802.1AB.
Port Security—MAC Address Based
The Port Security feature restricts access to the switch by only accepting dynamically learned MAC
addresses and manually entered MAC addresses as authorized. Dynamically learned MAC addresses are
those that the switch detects on any port while in ‗Learning‘ mode. A manually entered MAC address must
designate the ports that the address is authorized on. A non-authorized MAC address will be discarded and
will be shown on the intruder log.
(Revised 2011-11-15) Page 21 of 169
TROUBLESHOOTING
1. Make sure the (Power LED) is ON.
2. Make sure you are supplying sufficient current for the version chosen. Note: The Inrush
current will exceed the steady state current by ~ 2X.
3. Verify that Link LEDs are ON for connected ports.
4. Verify cabling used between stations.
5. Verify that cabling is Category 5E or greater for 100Mbit operation.
This product complies with Part 15 of the FCC-A Rules.
Operation is subject to the following conditions:
(1) This device may not cause harmful Interference
(2) This device must accept any interference received, including interference that may cause
undesired operation.
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against
harmful interference in a residential installation. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the instructions, may cause harmful
interference to radio communications. Operation of this device in a residential area is likely to cause
harmful interference in which case the user will be required to correct the interference at his/her own
expense.
INDUSTRY CANADA
This Class A digital apparatus meets all requirements of the Canadian Interference Causing Equipment
Regulations. Operation is subject to the following two conditions; (1) this device may not cause harmful
interference, and (2) this device must accept any interference received, including interference that may
cause undesired operation.
Cet appareillage numérique de la classe A répond à toutes les exigences de l'interférence canadienne
causant des règlements d'équipement. L'opération est sujette aux deux conditions suivantes: (1) ce
dispositif peut ne pas causer l'interférence nocive, et (2) ce dispositif doit accepter n'importe quelle
interférence reçue, y compris l'interférence qui peut causer l'opération peu désirée.
(Revised 2011-11-15) Page 22 of 169
Web Software Configuration
Web Management
Enter the switch‘s IP address in any web browser and login to the web management feature of the 7026
Series.
Default:
User Name: admin Password: admin
(Revised 2011-11-15) Page 23 of 169
Web Management - Home
When the administrator first logs onto a 7026 Series switch the default home page will be displayed. On the
left hand side of the screen there is a list of configurable settings that the 7026 Series switch will support.
This section of the manual will go through each and every choice listed on the left hand side of the screen
and explain how to configure those settings. In the center of the main home page the administrator can see
some basic information like what firmware revision the switch is running. The firmware can be upgraded at
a later time in the field using TFTP.
(Revised 2011-11-15) Page 24 of 169
Web Management – Menu Structure
To the left, there is a menu which is shown fully opened below. The pages opened by each of the individual
selections are described in the rest of this section. The use of each of these pages is also described in this
section. In most of the descriptions, only the right side of the page is shown.
(Revised 2011-11-15) Page 25 of 169
Administration – System
The System tab under the Administration category, lists various information about the switch:
When the IP Configuration is in either DHCP or Static Mode:
IP Configuration
Method used to obtain an IP Address, Subnet Mask and Gateway Address
IP Address
Contains the current IP Address of the device.
Subnet Mask
Contains the current Subnet Mask of the device.
Gateway
Contains the current Gateway of the device.
MAC Address
MAC Address of the device.
System Up Time
This parameter represents the total time count. This time has elapsed since the switch was turned ON orRESET.
Name
It shows the name of the product, which allows alphanumeric and special characters (#, _, -) only.
Contact
The person to contact for system issues, which should be someone within your organization.
Location
The physical location of the switch.
Temperature:
The calculated ambient temperature near the switch. This calculation is only valid after a warm-up period.
Upper Threshold:
The highest temperature for the switch without causing a fault to occur. The threshold is specified as an integer in
C degrees. The range is from -60°C to 100°C, and the default is product dependent.
Lower Threshold:
The lowest temperature for the switch without causing a fault to occur. The threshold is specified as an integer in
C degrees. The range is from -60°C to 100°C, and the default is product dependent.
(Revised 2011-11-15) Page 26 of 169
Administration – System, Continued…
When the IP Configuration is in DHCP Mode the following information is added:
Client ID
Option used by DHCP clients to specify their unique identifier. The identifier may be the MAC address,
switch name, or entered as a text string or hex characters.
Fallback IP Address
Contains the configured Fallback IP Address of the device.
Fallback Subnet Mask
Contains the configured Fallback Subnet Mask of the device.
Fallback Gateway
Contains the configured Fallback Gateway of the device.
(Revised 2011-11-15) Page 27 of 169
Administration – System, Continued…
By selecting the Modify button, you will be able to change the switch‘s IP Configuration, Client ID, IP
Address, Subnet Mask, Gateway, Name, Contact information, and the Location of the switch through the
web management features, depending on the IP Configuration. It is recommended to change the TCP/IP
information through the Command Line Interface (CLI) initially, but it defaults to the following:
IP Configuration – Static
IP Address – 192.168.1.201
Subnet Mask – 255.255.255.0
Gateway – 192.168.1.1
(Revised 2011-11-15) Page 28 of 169
Administration – System, Continued…
If the IP Configuration mode is set to DHCP and the Fallback IP address is changed from the default IP
address, then the switch will use the Fallback addresses if the IP configuration isn‘t received from a DHCP
server in 2 minutes after initial boot. If Fallback address is used, DHCP Client will stop sending requests. If
the IP Configuration is received from a DHCP server, it will never fallback, even if the lease is lost.
(Revised 2011-11-15) Page 29 of 169
Administration – SNMP
The SNMP tab under the Administration category shows a list of IP Addresses that act as SNMP Traps.
The Read-Only, Read-Write, and Trap Community Names are also shown here.
By selecting the Modify button, you will be able to change any of the fields listed. This allows the user to
set an IP address for a Trap station or change the Community Names. If the SNMP Notification Trap is
enabled, systems that are listed as a Trap station will be sent the corresponding notification trap. To restore
a Trap to ―Value Not Configured‖, enter ‗0.0.0.0‘.
(Revised 2011-11-15) Page 30 of 169
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