Phoenix Contact FL SWITCH 2205, FL SWITCH 2008, FL SWITCH 2105, FL SWITCH 2108, FL SWITCH 2207-FX User Manual

FL SWITCH 2000

User manual

Order No. —

User manual

FL SWITCH 2000

2017-05-24

Designation:

Revision:

Order No.:

This user manual is valid for:

Designation Order No. Designation Order No.
FL SWITCH 2005 2702323 FL SWITCH 2206-2FX SM 2702331
FL SWITCH 2008 2702324 FL SWITCH 2206-2FX ST 2702332
FL SWITCH 2105 2702665 FL SWITCH 2206-2FX SM ST 2702333
FL SWITCH 2108 2702666 FL SWITCH 2204-2TC-2SFX 2702334
FL SWITCH 2205 2702326 FL SWITCH 2206-2SFX 2702969
FL SWITCH 2208 2702327 FL SWITCH 2308 2702652
FL SWITCH 2207-FX 2702328 FL SWITCH 2304-2GC-2SFP 2702653
FL SWITCH 2207-FX SM 2702329 FL SWITCH 2306-2SFP 2702970
FL SWITCH 2206-2FX 2702330

UM EN FL SWITCH 2000

01

—

PHOENIX CONTACT 107065_en_01

Please observe the following notes

User group of this manual

The use of products described in this manual is oriented exclusively to:
– Qualified electricians or persons instructed by them, who are familiar with applicable

standards and other regulations regarding electrical engineering and, in particular, the
relevant safety concepts.

– Qualified application programmers and software engineers, who are familiar with the

safety concepts of automation technology and applicable standards.

Explanation of symbols used and signal words

This is the safety alert symbol. It is used to alert you to potential personal injury
hazards. Obey all safety measures that follow this symbol to avoid possible
injury or death.

There are three different categories of personal injury that are indicated with a
signal word.

DANGER This indicates a hazardous situation which, if not avoided, will

result in death or serious injury.

WARNING This indicates a hazardous situation which, if not avoided, could

result in death or serious injury.

CAUTION This indicates a hazardous situation which, if not avoided, could

result in minor or moderate injury.

This symbol together with the signal word NOTE and the accompanying text
alert the reader to a situation which may cause damage or malfunction to the
device, hardware/software, or surrounding property.

This symbol and the accompanying text provide the reader with additional
information or refer to detailed sources of information.

How to contact us

Internet Up-to-date information on Phoenix Contact products and our Terms and Conditions can be

found on the Internet at:

phoenixcontact.com

Make sure you always use the latest documentation.
It can be downloaded at:

phoenixcontact.net/products

Subsidiaries If there are any problems that cannot be solved using the documentation, please contact

your Phoenix Contact subsidiary.
Subsidiary contact information is available at phoenixcontact.com.

Published by PHOENIX CONTACT GmbH & Co. KG

Flachsmarktstraße 8
32825 Blomberg
GERMANY

Should you have any suggestions or recommendations for improvement of the contents and
layout of our manuals, please send your comments to:

tecdoc@phoenixcontact.com

PHOENIX CONTACT

Please observe the following notes

General terms and conditions of use for technical documentation

Phoenix Contact reserves the right to alter, correct, and/or improve the technical
documentation and the products described in the technical documentation at its own
discretion and without giving prior notice, insofar as this is reasonable for the user. The
same applies to any technical changes that serve the purpose of technical progress.

The receipt of technical documentation (in particular user documentation) does not
constitute any further duty on the part of Phoenix Contact to furnish information on
modifications to products and/or technical documentation. You are responsible to verify the
suitability and intended use of the products in your specific application, in particular with
regard to observing the applicable standards and regulations. All information made
available in the technical data is supplied without any accompanying guarantee, whether
expressly mentioned, implied or tacitly assumed.

In general, the provisions of the current standard Terms and Conditions of Phoenix Contact
apply exclusively, in particular as concerns any warranty liability.

This manual, including all illustrations contained herein, is copyright protected. Any
changes to the contents or the publication of extracts of this document is prohibited.

Phoenix Contact reserves the right to register its own intellectual property rights for the
product identifications of Phoenix Contact products th at are u sed here. R egistr ation o f such
intellectual property rights by third parties is prohibited.

Other product identifications may be afforded legal protection, even where they may not be
indicated as such.

Caution: Installation only by qualified personnel

Installation, startup and maintenance of the product may only be performed by qualified
specialist staff who have been authorized for this by the system operator. An electrician is a
person who, because of their training, experience and instruction, and knowledge of rele­vant standards, can assess any required operations and recognize any possible dangers.

Specialist staff must read and understand this documentation and comply with instructions.

Observe the national regulations in force for the operation, functional testing, repairs and
maintenance of electronic devices.

PHOENIX CONTACT

Table of contents

Table of contents

1 Factoryline SWITCH 2000 range ...............................................................................................7

1.1 Properties and versions.........................................................................................7

1.1.1 Dimensions of the FL SWITCH 2000 .....................................................8

1.1.2 Elements of the devices ......................................................................... 9

1.1.3 Description of the combo ports ..............................................................9

1.1.4 Status and diagnostic indicators ..........................................................10

2 Mounting and installation .........................................................................................................11

2.1 Mounting and removing the devices....................................................................11

2.2 Installing the devices ........................................................................................... 12

2.2.1 Connecting the supply voltage .............................................................12

2.2.2 Grounding ? .........................................................................................14

2.2.3 Assignment of the RJ45 Ethernet connectors ......................................14

2.2.4 Use of SFP slots (principle) .................................................................. 14

2.2.5 Using the SD card ................................................................................16

3 Startup and function .................................................................................................................17

3.1 Delivery state/factory settings..............................................................................17

3.2 Using Smart mode............................................................................................... 17

3.2.1 Calling Smart mode .............................................................................17

Factoryline SWITCH 2000 range3.2.2Selecting the desired setting ................... 18

3.2.3 Possible operating modes in Smart mode ............................................18

3.2.4 Exiting Smart mode ..............................................................................18

3.2.5 Operating with a default IP address .....................................................18

3.2.6 Operating in Unmanaged mode ...........................................................19

3.3 Assigning IP parameters via BootP......................................................................19

3.3.1 Assigning the IP address using

FL NETWORK MANAGER Basic .........................................................19

3.3.2 Assigning the IP address using IPAssign.exe ......................................21

4 Frame switching .......................................................................................................................25

4.1 Store and forward................................................................................................25

4.2 Multi-address function .........................................................................................25

4.2.1 Learning addresses .............................................................................25

4.2.2 Prioritization .........................................................................................26

5 Configuration and diagnostics in web-based management ......................................................27

5.1 Requirements for the use of WBM....................................................................... 27

5.2 Functions/information in WBM.............................................................................28

5.2.1 Information area of WBM .....................................................................29

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Factoryline SWITCH 2000 range

5.2.2 Configuration area of WBM ..................................................................33

5.2.3 Diagnostics area of WBM ....................................................................52

6 Configuration and diagnostics via

Command Line Interface (CLI) .................................................................................................57

6.1 Using the Command Line Interface (CLI).............................................................57

6.2 Access to the CLI ................................................................................................57

6.3 Basic principles for using CLI commands............................................................ 58

6.4 Command syntax ................................................................................................ 59

6.5 Using the CLI Help............................................................................................... 59

6.6 Auto-completion of commands............................................................................60

6.7 Using the CLI Network Scripting UI......................................................................61

7 Simple Network Management Protocol (SNMP) ......................................................................63

7.1 General function ..................................................................................................63

8 Link Layer Discovery Protocol (LLDP) .....................................................................................65

8.1 Basics..................................................................................................................65

9 Multicast filtering ......................................................................................................................69

9.1 Multicast Configuration........................................................................................69

10 Virtual Local Area Network (VLAN) ..........................................................................................71

11 Technical data and ordering data .............................................................................................75

11.1 Technical data for devices in the 2000 version....................................................75

11.2 Technical data for devices in the 2100 version....................................................76

11.3 Technical data for devices in the 2200 version....................................................78

11.4 Technical data for devices in the 2300 version....................................................81

11.5 Ordering data ...................................................................................................... 85

A Appendix for document lists......................................................................................................89

A 1 List of figures .......................................................................................................89

B 2 List of tables ........................................................................................................93

C 3 Index....................................................................................................................95

6 / 20

PHOENIX CONTACT 107065_en_01

1 Factoryline SWITCH 2000 range

1.1 Properties and versions

The Managed Switches in the 2000 version are Ethernet Switches which are suitable for in­dustrial use. They are available in the following versions:

– With five 10/100 Mbps RJ45 ports (FL SWITCH 2005)
– With eight 10/100 Mbps RJ45 ports (FL SWITCH 2008)

The Managed Switches in the 2100 version are Gigabit Ethernet Switches which are suit­able for industrial use. They are available in the following versions:

– With five 10/100/1000 Mbps RJ45 ports (FL SWITCH 2105)
– With eight 10/100/1000 Mbps RJ45 ports (FL SWITCH 2108)

The Managed Switches in the 2200 version are Ethernet Switches which are suitable for in­dustrial use. They are available in the following versions:

– With five 10/100 Mbps RJ45 ports (FL SWITCH 2205)
– With eight 10/100 Mbps RJ45 ports (FL SWITCH 2208)
– With seven 10/100 Mbps RJ45 ports and one FO port in SC format for multimode (FL

SWITCH 2207-FX)

– With seven 10/100 Mbps RJ45 ports and one FO port in SC format for single mode (FL

SWITCH 2207-FX-SM)

– With six 10/100 Mbps RJ45 ports and two FO ports in SC format for multimode (FL

SWITCH 2206-2FX)

– With six 10/100 Mbps RJ45 ports and two FO ports in SC format for single mode (FL

SWITCH 2206-2FX SM)

– With six 10/100 Mbps RJ45 ports and two FO ports in ST format for multimode (FL

SWITCH 2206-2FX ST)

– With six 10/100 Mbps RJ45 ports and two FO ports in ST format for single mode (FL

SWITCH 2206-2FX SM ST)

– With four 10/100 Mbps RJ45 ports, two Fast Ethernet combo ports, and two SFX ports

(FL SWITCH 2204-2TC-2SFX)

– With six 10/100 Mbps RJ45 ports and two SFX ports

(FL SWITCH 2206-2SFX)

The Managed Switches in the 2300 version are Gigabit Ethernet Switches which are suit­able for industrial use. They are available in the following versions:

– With eight 10/100/1000 Mbps RJ45 ports (FL SWITCH 2308)
– With four 10/100/1000 Mbps RJ45 ports, two Gigabit combo ports, and two SFP ports

(FL SWITCH 2304-2GC-2SFP)

– With six 10/100/1000 Mbps RJ45 ports and two SFP ports (FL SWITCH 2306-2SFP)

Factoryline SWITCH 2000 range

107065_en_01 PHOENIX CONTACT 7

FL SWITCH 2000

1.1.1 Dimensions of the FL SWITCH 2000

Figure 1-1 Dimensions of the FL SWITCH 2000

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PHOENIX CONTACT 107065_en_01

1.1.2 Elements of the devices

1

2

3

4

5

Figure 1-2 Elements of the devices

Table 1-1

Factoryline SWITCH 2000 range

Number Meaning

1 Connection for the supply voltage
2RJ45 ports
3Mode switch
4 Diagnostic and status indicators
5 Slot for optional SD card

1.1.3 Description of the combo ports

Combo ports enable a high degree of flexibility when setting up networks. They consist of a
corresponding RJ45 port (e.g., X3.1) and a corresponding SFP port (e.g., X3.2). Only one
port of the pair can be used at a time. Each combo port can therefore be used as a copper
or fiberglass port. Inserting an SFP module disables the corresponding RJ45 port. If a
combo port is used as a fiberglass port, the Link LED of the corresponding RJ45 port lights
up orange when there is an active connection.

The following FL SWITCH 2000 versions have combo ports:
– FL SWITCH 2204-2TC-2SFX (2 Fast-Ethernet combo ports for 100 Mbps SFP mod-

ules, ports 3 and 7)

– FL SWITCH 2304-2GC-2SFP (2 Gigabit combo ports for 100 Mbps and 1000 Mbps

SFP modules, ports 3 and 7)

107065_en_01 PHOENIX CONTACT 9

FL SWITCH 2000

Des. Color Status Meaning
US1 Green On Supply voltage 1 within the tolerance range

US2

(for 2200/2300 ver-

sion only)

FAI L

(for 2200/2300 ver-

sion only)

LNK/ACT

(at port top)

SPD

(at port bottom)

1.1.4 Status and diagnostic indicators

Please note that the meaning of the LEDs differs in Smart mode (see “Using Smart mode”
on page 17).

Off Supply voltage 1 too low

Green On Supply voltage 2 within the tolerance range

Off Supply voltage 2 too low

Red On Digital alarm output floated, i.e., an error is present

Off Digital alarm output connected to ground potential (ground), i.e., an

error is not present

Green On Link active

Flashing Data transmission

Off Link not active

Green/
orange

On Green: 100 Mbps

Orange (for 2100/2300 version only): 1000 Mbps

Off 10 Mbps if Link LED is active

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PHOENIX CONTACT 107065_en_01

2 Mounting and installation

A

A1

A2

2.1 Mounting and removing the devices

Mount the device on a clean DIN rail according to DIN EN 50022 (e.g., NS 35 ... from Phoe­nix Contact). To avoid contact resistance, only use clean, corrosion-free DIN rails. End
brackets (E/NS 35 N, Order No. 0800886) can be mounted to the right and left of the device
to stop the modules from slipping on the DIN rail.

Mounting:

• Place the module onto the DIN rail from above (A1). The upper holding keyway of the

module must be hooked onto the top edge of the DIN rail. Push the module from the
front towards the mounting surface (A2).

Mounting and installation

Figure 2-1 Snapping the device onto the DIN rail

• Once the module has been snapped on properly, check that it is fixed securely on the
DIN rail.

107065_en_01 PHOENIX CONTACT 11

FL SWITCH 2000

B

B1

B2

1 2 345

GND

Removal:

• Pull down the positive latch using a suitable tool (e.g., screwdriver). The positive latch

remains snapped out. Then swivel the bottom of the device away from the DIN rail
slightly (B1). Next, lift the device upwards away from the DIN rail (B2).

Figure 2-2 Removing the device

2.2 Installing the devices

Operation with one power
supply

2.2.1 Connecting the supply voltage

The device is operated using a 24 V DC voltage, which is applied via COMBICON. For de­vices in the 2200/2300 version, the voltage can also be supplied redundantly (see
Figure 2-4).

For devices in the 2200/2300 version: if redundant power supply monitoring is active (de­fault setting), an error is indicated if only one voltage is applied. A bridge between US1
and US2 prevents this error message. It is possible to deactivate monitoring in web-based
management or via SNMP.

Figure 2-3 Operating the device with one power supply (example)

12

PHOENIX CONTACT 107065_en_01

Redundant operation with

1 2 345

GND

US2

GND

1 2 345

US

GND

two power supplies

Mounting and installation

Figure 2-4 Redundant operation with two power supplies (example)

Please note that load distribution does not take place. The power supply unit with the high­er voltage will supply the device on its own.

2.2.1.1 Connecting a relay to the digital alarm output

The digital alarm output is an open drain output. In normal mode, the output is connected to
ground potential. If an error/alarm is present, the output is floated.

107065_en_01 PHOENIX CONTACT 13

Figure 2-5 Connecting a relay to the digital alarm output

Please note that the relay must be suitable for the operating voltage. Use the RIF-0-RPT­24DC/21 (Order No. 2903370), for example.

FL SWITCH 2000

2.2.2 Grounding 

Grounding protects people and machines against hazardous voltages. To avoid these
dangers, as far as possible, correct grounding, taking the local conditions into account, is
vital.

All Factoryline devices must be grounded so that any possible interference is shielded from
the data telegram and discharged to ground potential. A conductor of at least 2.5 mm² must
be used for grounding. Mount the module on a grounded DIN rail. The module is functional
grounded by snapping it onto the DIN rail.

2.2.3 Assignment of the RJ45 Ethernet connectors

Please note that for operation with 1000 Mbps (Gigabit), cables with four twisted pairs
(eight wires), which meet the requirements of CAT5e as a minimum, must be used.

Please note that only devices in the 2100/2300 version support Gigabit.

Table 2-1 Pin assignment of RJ45 connectors

Pin number 10Base-T/10 Mbps 100Base-T/100 Mbps 1000Base-T/1000 Mbps

1 TD+ (transmit) TD+ (transmit) BI_DA+ (bidirectional)
2 TD- (transmit) TD- (transmit) BI_DA- (bidirectional)
3 RD+ (receive) RD+ (receive) BI_DB+ (bidirectional)
4 - - BI_DC+ (bidirectional)
5 - - BI_DC- (bidirectional)
6 RD- (receive) RD- (receive) BI_DB- (bidirectional)
7 - - BI_DD+ (bidirectional)
8 - - BI_DD- (bidirectional)

2.2.4 Use of SFP slots (principle)

The SFP slots are used by SFP modules (FO fiberglass modules in SFP format). By select­ing the SFP modules, the user can specify whether the switch has multimode or single­mode FO ports, for example.

The SFP modules are available separately as accessories, see “Technical data and order­ing data” on page 75.

14

PHOENIX CONTACT 107065_en_01

2.2.4.1 Elements of the SFP modules

Elektrische

Anschlusskontakte

Mechanische
Verriegelung

LWL-

Anschluss

Ausrasthebel

Figure 2-6 Elements of the SFP modules

2.2.4.2 Mounting the SFP modules

Inserting the SFP modules

• Insert the SFP modules in the relevant slots on the switch.

• Ensure correct mechanical alignment of the SFP modules.

Mounting and installation

Figure 2-7 Inserting the SFP modules (example)

Removing the SFP modules

• Remove the FO connector before removing the SFP module.

• Turn the release latch to the side and pull out the SFP module.

107065_en_01 PHOENIX CONTACT 15

FL SWITCH 2000

2.2.5 Using the SD card

The switch is provided with a Phoenix Contact SD card, thereby enabling quick configura­tion. The slot for the SD card is located on the back of the device.

Figure 2-8 Position of the SD card slot

Automatically reading the configuration on the SD card

To automatically read the configuration on the SD card, make sure that the card is inserted
when the switch is started. As soon as the boot process has been completed (indicated by
the LEDs on the port going out), the configuration is applied in the internal switch memory
and is active during operation. The SD card can then be removed. The configuration also
remains active when the switch is restarted, provided an SD card is not inserted in the de­vice.

16

PHOENIX CONTACT 107065_en_01

3 Startup and function

3.1 Delivery state/factory settings

By default upon delivery or after the system is reset to the factory settings, the following
functions and properties are available:

–The user name is: “admin”
– The password is: “private”
– All IP parameters are deleted. The switch has no valid IP address.
– The available RJ45 ports are set to auto negotiation and auto crossing
– All counters of the SNMP agent are reset
– The web server (HTTP) and SNMPv2 are activated
– CLI (Telnet) is activated
– Port mirroring and MRP are deactivated
– Rapid Spanning Tree (RSTP) is activated (as of firmware Version 2.01)
– The digital alarm output is an open drain output. In the event of redundant power supply,

the output is connected to ground potential. If there is no redundant power supply, the
output is floated.

– BootP for assigning IP parameters is activated
– The MAC address table does not contain any entries
– LLDP is activated
– DHCP server is deactivated

Startup and function

3.2 Using Smart mode

Smart mode enables the user to change the operating mode of the switch, without having
access to one of the management interfaces.

The following setting options can be selected via Smart mode:
– Resetting the IP configuration
– Operating in EtherNet/IP mode
– Operating with a static IP address
– Operating in Unmanaged mode
– Reset to the factory settings

The Mode button is used to call/exit Smart mode and to select the desired setting. The four
mode LEDs indicate the mode that is currently selected and that will apply when exiting
Smart mode.

3.2.1 Calling Smart mode

• Following the switch boot phase, as soon as the LEDs of all ports go out, press and hold

down the Mode button for more than five seconds. If Smart mode is active, the four
LEDs of port X1 and X2 will flash. The active state is indicated alternately by the flashing
of all four LEDs.

• When Smart mode is started, the switch is initially in the “Exit without changes” state.

107065_en_01 PHOENIX CONTACT 17

FL SWITCH 2000

3.2.2 Selecting the desired setting

• To select the various settings, press the Mode button briefly and select the desired op-

erating mode (see Table “Operating modes in Smart mode” on page 18).

3.2.3 Possible operating modes in Smart mode

The switch supports the selection of the following operating modes in Smart mode:

Table 3-1 Operating modes in Smart mode

Mode LED at port 1

top

Exit Smart mode without changes On Off Off Off
Reset to the factory settings Off On Off Off
Set EtherNet/IP mode Off Off On Off
Operating with a default IP address Off On On Off
Reset the IP configuration On On On Off
Operating in Unmanaged mode Off On Off On

LED at port 1

bottom

LED at port 2

top

LED at port 2

bottom

3.2.4 Exiting Smart mode

• To exit, press and hold down the Mode button for at least five seconds. The previously

selected operating mode is saved and activated.

3.2.5 Operating with a default IP address

For operation with a default IP address, the device is assigned a fixed IP address. A DHCP
server is activated on the switch and assigns an IP address to the connected PC via DHCP.

To start up the device with a default IP address, activate the “Operating with a static IP
address” Smart mode as described in “Using Smart mode” on page 17.

1. In the network settings on your PC, select the “Obtain an IP address automatically” op­tion.

Deactivate all other network interfaces on your PC.

2. Connect the switch to your PC.

3. Select the “Operating with a default IP address” Smart mode as described in “Using
Smart mode” on page 17.

4. The switch assigns an IP address to the PC via DHCP.

5. The switch can now be accessed via IP address “192.168.0.254”.

Set the desired IP address via web-based management.

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PHOENIX CONTACT 107065_en_01

Startup and function

3.2.6 Operating in Unmanaged mode

For operation in Unmanaged mode, the switch can also be used without an IP address. The
switch adopts the static IP address 0.0.0.0. The subnet mask and gateway are also config­ured to 0.0.0.0. In this way, web-based management can no longer be accessed, and the
switch no longer sends BootP and DHCP requests.

The main functions remain active in Unmanaged mode:
– Redundancy mechanisms for loop avoidance (RSTP, FRD, LTS)
– Functions for hardening the network (broadcast/multicast limiter)
– Functions for reducing the network load (IGMP snooping)

The functions must be configured in Managed mode and will remain active when switching
to Unmanaged mode. Alternatively, Unmanaged mode can be activated using a configura­tion file and SD card.

Unmanaged mode can only be exited by switching to a different Smart mode or by reset­ting the switch to the factory settings.

3.3 Assigning IP parameters via BootP

BootP is activated by default.

For IP address assignment, the device uses the BootP protocol. Numerous BootP servers
are available on the Internet. You can use any of these programs for address assignment.

This section explains IP address assignment using the “FL NETWORK MANAGER Basic”
(Order No. 2702889) and “IP Assignment Tool” software tools from Phoenix Contact.

Notes on BootP

During initial startup, the device sends BootP requests without interruption until it receives
a valid IP address. As soon as it receives a valid IP address, the device stops sending BootP
requests.

After a restart, the device sends three BootP requests and will only then accept the old IP
address if there is no BootP response.

3.3.1 Assigning the IP address using

FL NETWORK MANAGER Basic

Requirements

The device is connected to a PC with a Microsoft Windows operating system and the
FL NETWORK MANAGER has been successfully installed.

Step 1: parameterizing the BootP server

• Open the FL NETWORK MANAGER software

• Open a new project in the software

107065_en_01 PHOENIX CONTACT 19

FL SWITCH 2000

• Under Tools  Options, select the

BOOTP/DHCP SERVER menu item

• Configure the network interface on your PC to which the device is connected and select
“BootP” mode. You can also adjust the subnet mask and configure a default gateway.

• Click “OK” to confirm the parameterization

Figure 3-1 Settings for the BootP server

Step 2: starting the BootP server

• In your project in the BOOTP/DHCP SERVER window, click on the Play icon next to the

selected network interface. The BootP server is now activated.

• BootP requests that are received are listed in the BOOTP/DHCP SERVER window in
table format

Figure 3-2 BootP server

Step 3: inserting incoming BootP requests in the reservation list and assigning IP
parameters

• If you wou ld no w li ke to ass ign I P pa rame ters to a d evic e, s uch a s an IP ad dres s, su bne t

mask or default gateway, right-click on an incoming BootP request in the BOOTP/DH­CP SERVER window and select “Add to BOOTP/DHCP reservations”.

• Now enter the IP address to be assigned in the BOOTP/DHCP reservations window.
The IP parameters are immediately transferred to the device.

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PHOENIX CONTACT 107065_en_01

Startup and function

• You can check whether IP address assignment was successful in the

“IP address” column in the BOOTP/DHCP SERVER window.

Figure 3-3 FL Network Manager with BootP/DHCP reservation list displayed

If required, the IP parameters set here can be changed in web-based management (see
“Requirements for the use of WBM” on page 27).

3.3.2 Assigning the IP address using IPAssign.exe

Requirements

The device is connected to a computer with a Microsoft Windows operating system.

Step 1: downloading and executing the program

• On the Internet, select the link phoenixcontact.net/catalog.

• Follow further instructions in order to access the search field.

• Enter order number 2702323 in the search field, for example.

The BootP IP addressing tool can be found among the various product-related downloads.

• Double-click on the “IPAssign.exe” file.

• In the window that opens, click on the “Run” button.

107065_en_01 PHOENIX CONTACT 21

FL SWITCH 2000

Step 2: “IP Assignment Tool”

The program opens and the start screen of the addressing tool appears.

The program is mostly in English for international purposes. However, the program buttons
change according to the country-specific settings.

The start screen displays the IP address of the PC. This helps when addressing the device
in the following steps.

• Click on the “Next” button.

Step 3: “IP Address Request Listener”

All devices sending a BootP request are listed in the window which opens. These devices
are waiting for a new IP address.

Figure 3-4 “IP Address Request Listener” window

The MAC address of the switch can be found on the sticker on the side.

In this example, the switch has MAC address 00.A0.45.04.08.A3.

• Select the device to which you want to assign an IP address.

• Click on the “Next” button.

Step 4: “Set IP Address”

The following information is displayed in the window which opens:
– IP address of the PC
– MAC address of the selected device
– IP parameters of the selected device

(IP address, subnet mask, and gateway address)

– Any incorrect settings

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PHOENIX CONTACT 107065_en_01

Startup and function

Figure 3-5 “Set IP Address” window with incorrect settings

• Adjust the IP parameters according to your requirements.

If inconsistencies are no longer detected, a message appears indicating that a valid IP ad­dress has been set.

• Click on the “Next” button.

Step 5: “Assign IP Address”

The program attempts to transmit the set IP parameters to the device.

Figure 3-6 “Assign IP Address” window

Following successful transmission, the next window opens.

Step 6: completing IP address assignment

The window that opens informs you that IP address assignment has been successfully com­pleted. It gives an overview of the IP parameters that have been transmitted to the device
with the MAC address shown.

To assign IP parameters for additional devices:

• Click on the “Back” button.

107065_en_01 PHOENIX CONTACT 23

FL SWITCH 2000

To exit IP address assignment:

• Click on the “Finish” button.

If required, the IP parameters set here can be changed in web-based management (see
Section “Network” on page 39).

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4 Frame switching

The switch operates in store and forward mode. When receiving a data packet, the switch
analyzes the source and destination addresses. The switch stores up to 8192 MAC ad­dresses in its address table with an adjustable aging time of 10 to 825 seconds.

4.1 Store and forward

All data telegrams received by the switch are stored and checked for validity. Invalid or
faulty data packets (> 1536 bytes or CRC errors) and fragments (< 64 bytes) are rejected.
Valid data telegrams are forwarded by the switch.

4.2 Multi-address function

The switch learns all the source addresses for each port. Only packets with:
– Unknown source addresses
– A source address for this port or
– A multicast/broadcast address

in the destination address field are forwarded via the relevant port. The switch can learn up
to 8192 addresses. This is important if more than one end device is connected to one or
more ports. Several independent subnetworks can be connected to one switch.

Frame switching

4.2.1 Learning addresses

The switch independently learns the addresses for end devices, which are connected via
this port, by evaluating the source addresses in the data telegrams. When the switch re­ceives a data telegram, it forwards this data telegram to only that port that connects to the
specified device (if the address could be learned beforehand).
The switch monitors the age of the learned addresses. The switch automatically deletes
from its address table address entries that exceed a specific age (default: 40 seconds, ad­justable from 10 to 825 seconds, aging time).

All learned entries are deleted on a restart.
A link down deletes all the entries of the affected port.

A list of detected MAC addresses can be found in the MAC address table. The MAC ad­dress table can be deleted via the “Clear” button.

The aging time is set using the “dot1dTpAgingTime” MIB object
(OID 1.3.6.1.2.1.17.4.2). The available setting range is 10 - 825 seconds. For static con­figuration, an aging time of 300 seconds is recommended.

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4.2.2 Prioritization

The switch supports eight priority queues (traffic classes according to IEEE 802.1Q) for ad­justing the internal packet processing sequence. Data telegrams that are received are as­signed to these classes according to their priority, which is specified in the VLAN/prioritiza­tion tag, where the value “0” in the tag indicates the lowest priority and the value “7” indicates
the highest priority.

Processing rules

The switch controller in the device forwards received packets to the available receive
queues according to the following decisions:

– BPDU packets are always assigned to the high-priority queue.
– Packets with VLAN/prioritization tag are forwarded according to the queues listed

above.

– All remaining data is assigned to the low-priority queue.

4.2.2.1 Class of Service (CoS)

Class of Service refers to a mechanism used to take into consideration the value of the pri­ority field (values 1 to 7) in VLAN data packets with a tag. The switch assigns the data
streams in various processing queues, depending on the priority information contained in
the CoS tag. The switch supports four internal processing queues.

4.2.2.2 Quality of Service (QoS)

Quality of Service affects the forwarding and handling of data streams and results in individ­ual data streams being given differential treatment (usually preferential). QoS can be used,
e.g., to guarantee a transmission bandwidth for individual data streams. The switch uses
QoS in connection with prioritization.

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Configuration and diagnostics in web-based management

5 Configuration and diagnostics in web-based manage-

ment

The user-friendly web-based management (WBM) interface can be used to manage the
switch from anywhere in the network using a standard browser (e.g., Internet Explorer 11).
The configuration and diagnostic functions are clearly displayed on a graphical user inter­face. Every user with a network connection to the device has read/write access to that de­vice via a browser. A wide range of information about the device itself, set parameters, and
the operating state can be viewed.

Modifications to the device can only be made by entering the valid password. By default
upon delivery, the user name is “admin” and the password is “private”.

For security reasons, we recommend changing the existing password to a new one
known only to you.

5.1 Requirements for the use of WBM

As the web server operates using the Hyper Text Transfer Protocol, a standard browser can
be used. Access is via the URL “http://IP address of the device”. Example:
“http://172.16.29.112”. If the web server is set to the secure HTTPS protocol in WBM, ac­cess is via the URL “https://IP address of the device”. For full operation of the web pages,
the browser must support JavaScript 1.2 and Cascading Style Sheets Level 1. We recom­mend the use of Microsoft Internet Explorer 11.

WBM can only be called using a valid IP address. By default upon delivery, the switch has
no valid IP address (see “Assigning IP parameters via BootP” on page 19).

Device login is only possible if cookies are allowed in the browser settings.

Some functions are opened in pop-up windows. It is therefore only possible to use all of
the functions if pop-ups are permitted in the browser settings.

In order to make changes, you must log into the device. To do so, click on the “Login” button.

By default upon delivery, the user name is “admin” and the password is “private”.

Figure 5-1 Login window

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5.2 Functions/information in WBM

WBM is split into the following areas:
– Information: general device information
– Configuration: device configuration
– Diagnostics: device-specific diagnostics

Figure 5-2 Start page for web-based management (example)

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5.2.1 Information area of WBM

5.2.1.1 Help & Documentation

Figure 5-3 “Help & Documentation” web page

Here you will find useful information about using web-based management. On this page, the
following files and software, which are supplied with the device, can be downloaded directly
from the device:

– Description Files (SNMP)
– IP Assignment Tool (see “Assigning the IP address using FL NETWORK MANAGER

Basic” on page 19)

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5.2.1.2 Device Status

Here you will find general information about your device, such as the serial number, firm­ware version or hardware version.

Figure 5-4 “Device Status” web page

5.2.1.3 Technical Data

Here you will find the technical data for your device, such as specifications for the power
supply.

Figure 5-5 “Technical Data” web page

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5.2.1.4 Local Diagnostics

Here you will find a brief explanation of how to interpret the individual LEDs on the device.

Figure 5-6 “Local Diagnostics” web page

5.2.1.5 Alarm & Events

You will find a list of alarms and events on this page. The entries in the “Event Table” are
also retained after power up. The “Event Table” can be downloaded from the device in CSV
format.

Figure 5-7 “Alarm & Events” web page

5.2.1.6 Port Table

You will find a list of the current states of the individual ports on this page.

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Clicking on the “Redundancy Port Table” button opens a table with information on the indi­vidual ports and their redundancy mechanism assignment.

Figure 5-8 “Port Table” web page

5.2.1.7 MAC Address Table

You will find a list of the current devices in the network on this page. The list can be down­loaded from the device in CSV format.

Figure 5-9 “MAC Address Table” web page

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Configuration and diagnostics in web-based management

5.2.2 Configuration area of WBM

5.2.2.1 System

Reset Device: clicking on the “Reset” button restarts the device. All unsaved parameters will
be lost.

Figure 5-10 “System” web page

The connection to the device is interrupted for the boot phase.

Firmware Update

Clicking on the “Update Firmware” link opens a pop-up in which the parameters for the firm­ware update must be entered.

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Pop-up: Update Firmware

Update via HTTP: select “HTTP” as the method. Clicking on “Browse” allows you to select
the desired file on your PC. Clicking on “Apply” starts the update.

Figure 5-11 “Firmware Update via HTTP” pop-up

Update via TFTP: select “TFTP” as the method.

Figure 5-12 “Firmware Update via TFTP” pop-up

– TFTP server IP address:

Here, set the IP address of the computer on which the TFTP server is active.

– Remote firmware filename:

Here, set the name of the firmware file which is to be transferred to the device.

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– Automatic reboot after upload:

Here, set whether a reboot should be carried out after the firmware update. The firm­ware update starts as soon as you click on “Apply”.

Configuration Handling

Status of Current Configuration: indicates the status of the active configuration

SD Card State: indicates whether or not an SD card is inserted

This display can only be refreshed by reloading the web page.

Perform Action:
– Compare: compares the configuration file on the SD card with the one on the device.
– Clear: deletes the configuration file on the SD card.

The selected action is performed by clicking in the drop-down list.

Perform Configuration Action:
– Factory Default: resets the device configuration to the delivery state.
– Save Configuration: saves the active device configuration to the SD card.
– Reload Configuration: loads the configuration file from the SD card and applies it. The

device is then restarted.

The selected action is performed by clicking in the drop-down list.

Advanced Configuration: clicking on the “Further configuration handling options” link opens
a window in which the parameters for transferring a configuration file from the device to the
PC (download) or from the PC to the device (upload) must be entered.

Secure UIs: clicking on the “Security Context” link opens the “Security Context” pop-up (see
page 37).

Pop-up: Advanced Configuration

File Type: select the file type here.

Direction: here you should select whether the configuration is to be uploaded to or down­loaded from the device.

Update status: indicates the current transfer status.

Start transfer: click on the “Start” button to start the transfer of the configuration.

Configuration name: here you should enter the name under which you want to save the con­figuration on the PC.

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Transfer via HTTP: select “HTTP” as the transfer method. Clicking on “Browse” allows you
to select the desired file on your PC. You can upload the desired file directly to the PC via
your browser by selecting “HTTP Upload”.

Figure 5-13 “Advanced Configuration” pop-up

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Configuration and diagnostics in web-based management

Transfer via TFTP: select “TFTP” as the transfer method.

TFTP server IP address: here you should enter the IP address via which the TFTP server
can be reached.

Remote filename: here you should enter the name of the file to be uploaded or downloaded.

Figure 5-14 “Advanced Configuration” pop-up

Pop-up: Security Context

Create new context: clicking on the “Generate” button creates all the necessary keys and
certificates for operation with HTTPS and SSH.

Current state: displays the status of the current availability of the security context.

Root CA: clicking on the “cacert.cer” link loads the Root CA certificate for the installation in
the browser.

Advanced Configuration: clicking on the “File transfer” link opens the “Advanced Configura­tion” pop-up (see “Pop-up: Advanced Configuration” on page 35).

Figure 5-15 “Security Context” pop-up

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Administrator Password

Figure 5-16 “Administrator Password” configuration area

You can change the administrator password here. The new password must be between 8
and 63 characters long. The new password will be activated after logout. By default upon
delivery, the password is “private” (please note that it is case-sensitive). For security rea­sons, the input fields do not display your password, but instead “*******” is displayed.

Device Identification

Device information can be configured in this area, which is then displayed on the “Device
Status” page.

Device Name: you can configure the device name here.

Device Description: you can enter a device description in this text field.

Physical Location: here you can provide the location of the device, such as the building in
which it is installed.

Device Contact: you can enter a contact address in this field.

5.2.2.2 Quick Setup

The basic settings can be made in Quick Setup.

Figure 5-17 “Quick Setup” web page

Automation Profile: select a profile which is optimized for the desired operating mode.

IP Assignment: select the type of IP address assignment.

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– STATIC: static IP address
– BOOTP: assignment via the Bootstrap protocol
– DHCP: assignment via a DHCP server

IP address: set the desired IP address.

Network mask: set the desired subnet mask here.

Default gateway: set the desired default gateway here.

Administrator password: you can change the administrator password here.

Device Name: you can enter the device name of the switch here.

Device Description: you can enter a description for the device here.

Physical Location: you can enter a location for the device here.

Device Contact: you can enter the name of a contact person for the device here.

LLDP Mode: you can enable or disable LLDP here.
– Disable: LLDP is deactivated
– Enable: LLDP is activated
– Send only: received LLDP BPDUs are ignored
– Receive only: no LLDP BPDUs are sent

The “LLDP Topology” link opens the corresponding page which can also be accessed via
the menu item of the same name (see “Link Layer Discovery Protocol (LLDP)” on page 65).

Port-based LLDP configuration can be found on the “Service” page (see “Service” on
page 40).

5.2.2.3 Network

The basic network settings are made here.

Figure 5-18 “Network” web page

IP Address Assignment: select the type of IP address assignment.
– STATIC: static IP address
– BOOTP: assignment via the Bootstrap protocol
– DHCP: assignment via a DHCP server

If you have chosen “STATIC”, now make the following settings:

IP Address: set the desired IP address.

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Network Mask: set the desired subnet mask here.

Default Gateway: set the desired default gateway here.

Management VLAN: set the VLAN here, in which the management is to be located (default:
“1”).

ACD Mode: you can enable/disable the “Address Conflict Detection” function here.

ACD Status Information: clicking on the link opens the “Device Status” page.

Figure 5-19 ACD status information on the “Device Status” page

5.2.2.4 Service

Figure 5-20 “Service” web page

Web Server: you can enable/disable the web server function and select the mode
(HTTP/HTTPS) here.

SNMP Server: you can enable/disable the SNMP server function and the mode (SNMP v2,
SNMP v3) here.

CLI Service:
– Disable: entry of CLI commands is deactivated
– Telnet: entry of CLI commands via Telnet is activated
– SSH: entry of CLI commands via Secure Shell (SSH) is activated

CLI Network Scripting UI:
– Disable: transmission of CLI commands via the network is deactivated
– Enable: transmission of CLI commands via the network is activated

For additional information on using the CLI, refer to “Configuration and diagnostics via
Command Line Interface (CLI)” on page 57.

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LLDP Mode:
– Disable: LLDP is disabled
– Enable: LLDP is enabled
– Send only: only LLDP BPDUs are sent.
– Receive only: only LLDP BPDUs are received.

Port-based LLDP configuration can be found on the “Service” page (see “Service” on
page 40).

LLDP Transmit Interval: here you can set the interval in which LLDP telegrams are to be
sent. The value must be between 5 and 32786 seconds (default: 5 s).

LLDP Transmission: you can enable/disable port-specific forwarding of LLDP telegrams
here

LLDP Reception: you can enable/disable port-specific ignoring of LLDP telegrams here

For additional information on “LLDP”, refer to “Link Layer Discovery Protocol (LLDP)” on
page 65.

5.2.2.5 Port Configuration

Individual Port Configuration

Figure 5-21 “Port Configuration” web page

Port: select the port that you want to configure individually.

Status: the port can be activated/deactivated here.

Name: you can assign the port a name.

Type: describes the physical properties of the port.

Link: displays the current link status of the port.

Negotiation Mode: indicates the current auto negotiation status.

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Speed: displays the current transmission speed at which the port is operating.

Duplex: displays the transmission mode of the port.

Mode: the port can be set to a fixed speed and transmission mode here.

Link Monitoring: here you can set whether the link behavior is to be monitored at the se­lected port.

Default Priority: set the priority for incoming data packets at this port here.

Flow Control: flow control for the selected port can be enabled and disabled here.

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Advanced Port Configuration

Clicking on the “Configure all ports simultaneously” link takes you to the “Port Configuration
Table” page. You can set the status, mode, link monitoring, and flow control for all ports
here.

Figure 5-22 “Port Configuration Table” web page

Clicking on the “Configure Port Mirroring” button takes you to the port mirroring configura­tion (see “Port Mirroring” on page 53).

Clicking on the “Configure Port Settings for a VLAN” button takes you to the “VLAN Port
Configuration” page (see “VLAN Configuration” on page 71).

5.2.2.6 VLAN Configuration

For additional information on “VLAN”, refer to “Virtual Local Area Network (VLAN)” on
page 71.

Figure 5-23 “VLAN Configuration” web page

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5.2.2.7 Multicast Filtering

Figure 5-24 “Multicast Filtering” web page

For additional information on “Multicast”, refer to “Multicast filtering” on page 69.

5.2.2.8 Network Redundancy

Spanning-Tree Configuration

Figure 5-25 “Spanning-Tree Configuration” configuration area

RSTP Mode:

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– Disable: the RSTP function is not activated
– 802.1w: the RSTP function is activated globally and operates according to standard

802.1w

The functions below are only available if “802.1w” is activated.

– Large Tree Support: the “Large Tree Support” option makes the ring topology suitable

for 28 switches along the relevant path if RSTP is used. The “Large Tree Support” op­tion could provide an RSTP ring topology with up to 57 devices.

– Fast Ring Detection: this function speeds up switch-over to a redundant path in the

event of an error and provides easy diagnostics. RSTP fast ring detection provides
each ring with an ID. This ID is made known to each switch in the relevant ring. A switch
can belong to several different rings at the same time.

– Bridge Priority: the bridge and backup roots can be specified via “Bridge Priority”. Only

multiples of 4096 are permitted. The value will be rounded automatically to the next
multiple of 4096. Once you have clicked on “Apply&Save”, the initialization mechanism
is started (default value: 32768).

– Bridge Hello Time: specifies the time interval within which the root bridge regularly re-

ports to the other switches via BPDU.

– Bridge Forward Delay: the bridge forward delay value indicates how long the switch is

to wait for the port state in STP mode to change from “Discarding” to “Listening” and
from “Listening” to “Learning” (2 x forward delay).

– Bridge Max Age: the parameter is set by the root switch and used by all switches in the

ring. The parameter is sent to make sure that each switch in the network has a constant
value, against which the age of the saved configuration is tested.

Clicking on the “RSTP Port Configuration” button takes you to the “RSTP Port Configuration”
pop-up.

Clicking on the “RSTP Port Configuration Table” button takes you to the “RSTP Port Config­uration Table” pop-up (see page 47).

Clicking on the “RSTP Diagnostic” button opens the “RSTP Diagnostic” page as a pop-up
(see page 52).

Media Redundancy Protocol (MRP)

MRP device mode:

- Disable: the MRP function is not activated

- Client: the MRP function is activated and the switch is the client

- Manager: the MRP function is activated and the switch is the ring manager

The manager function is only available for the 2200/2300 versions provided that the SD
card is inserted and has a MRP master license (MRM) (see “Ordering data” on page 85).

Ring Port 1: select the first MRP ring port here

Ring Port 2: select the second MRP ring port here

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Pop-up: RSTP Port Configuration

Figure 5-26 “RSTP Port Configuration” web page

Select Port: select the port for which you want to change the RSTP settings here.

RSTP Enable:
– Enable: RSTP is activated for the port
– Disable: RSTP is deactivated for the port

Admin Path Cost: displays the path costs set for this port. A path cost equal to “0” activates
the cost calculation according to the transmission speed (10 Mbps = 2000000; 100 Mbps =

200000).

Operating Path Cost: displays the path costs used for this port.

Auto Edge: here you can set whether an automatic change from non-edge port to edge port
is to be carried out after a link up.

Admin Edge: here you can set whether this port is to be operated as an edge port (default
setting), if possible.

Operating Edge: indicates whether this port is operated as an edge port or a non-edge port.

Priority: indicates the priority set for this port (default value: 128).

Forward Transitions: indicates the number of times the port switches from the “Discarding”
state to the “Forwarding” state.

Designated Root: indicates the root bridge for this spanning tree.

Designated Bridge: indicates the switch from which the port receives the best BPDUs.

Designated Port ID: indicates the port via which the BPDUs are sent from the designated
bridge. The value is based on the port priority (2 digits) and the port number.

Designated Cost: displays the path costs of this segment to the root switch.

Protocol Version: displays the protocol version.

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Pop-up: RSTP Port Configuration Table

Figure 5-27 “RSTP Port Configuration Table” web page

Port: indicates the ports for which RSTP is available.

RSTP Enable: here you can individually activate or deactivate RSTP for each port.

Admin Edge: here you can set whether this port is to be operated as an edge port (default
setting), if possible.

Admin Cost: displays the path costs set for this port. A path cost equal to “0” activates the
cost calculation according to the transmission speed (10 Mbps = 2000000; 100 Mbps =

200000).

5.2.2.9 Security

Figure 5-28 “Security” web page

Secure UIs: clicking on the “Security Context” link opens the pop-up of the same name (see
page 37).

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5.2.2.10 DHCP Service

Figure 5-29 “DHCP Service” web page

DHCP Mode: select the DHCP service you wish to use here.
– None: a DHCP service is not used on the switch.
– Relay Agent: the DHCP relay agent (DHCP Option 82) is enabled.
– Server: the switch is used as the DHCP server.

The following fields are only available after selecting “Relay Agent” as the DHCP mode.

Option82: select the address which should be used as the remote ID here.
– IP: uses the IP address of the switch as the remote ID.
– MAC: uses the MAC address of the switch as the remote ID.

Server IP Address: set the IP address of the DHCP server in your network here.

Port Mode: select the ports for which the DHCP relay agent should be activated here.

The following fields are only available after selecting “Server” as the DHCP mode.

– Running State: shows the current status of the DHCP server. The status is “Inactive” if

some setting options are incorrect.

– Pool Start Address: set the first IP address of the DHCP server address pool here.
– Pool Size: set the number of IP addresses in the DHCP server address pool here.

Please note that the number of IP addresses must match the configured subnetwork.

– Network Mask: set the subnet mask that is assigned to the DHCP clients here.
– Router IP: set the router/default gateway IP address that is assigned to the DHCP cli-

ents here.

– DNS IP: set the DNS IP address that is assigned to the DHCP clients here.

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– Lease Time (s): the time that the DHCP server leases an IP address to a client before it

has to report to the server again can be set here. The value must be between 300 and
2592000 seconds, “0” is interpreted as an infinite time (default: 3600).

– Accept Bootp: here you can set whether the switch acting as the DHCP server accepts

BootP requests. If this function is activated, an IP address with an infinite lease time is
assigned to the requesting DHCP clients.

Port-based DHCP Configuration: opens the “Port-based DHCP Configuration” pop-up.
Current DHCP leases: opens the “Current DHCP Leases” pop-up where the IP addresses
that are currently assigned are displayed.
DHCP static leases: opens the “DHCP Static Leases” pop-up for configuring static IP ad­dress assignment.

Pop-up: Port-based DHCP Configuration

The port-based DHCP server functionality can be configured in this pop-up.
– Select Port: select the port for which you wish to carry out port-based DHCP server con-

figuration here.

– Local Service enable: activate the port-based DHCP server functionality for the select-

ed port here.

– Local IP: enter the IP address that is assigned to the client at the selected port here.
– Netmask: enter the subnet mask that is assigned to the client at the selected port here.
– Router: enter the gateway address that is assigned to the client at the selected port

here.

– DNS: enter the DNS address that is assigned to the client at the selected port here.

Figure 5-30 “DHCP Port Local Service” pop-up

Pop-up: Current DHCP Leases

This pop-up displays the IP addresses that are currently assigned.
– Leased IP: displays the assigned IP addresses.
– Client ID: displays the MAC address of the client to which the IP address is assigned.
– System Uptime: displays the time that has elapsed since the IP address was assigned

to the client.

– Local Port: indicates the port to which the client is connected.
– State: indicates the status of the client.
– Lease count: displays the number of assigned IP addresses.

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– Release: clicking on the “Release” button releases unused entries.

Pop-up: DHCP Static Leases

This pop-up displays the configured static IP assignment.

Lease list:
– IP address: displays the static IP address assigned.
– Client address: displays the MAC address of the client.
– Delete: clicking on the red cross deletes the entry.

Create new static entry:
– IP address: enter the static IP address that you wish to assign here.
– Client address: enter the MAC address to which you wish to assign a static IP address

here.

– Create: click on the “Create” button to carry out static assignment.

Clear static table: click on the “Clear” button to delete all the static DHCP leases.

5.2.2.11 Local Events

Figure 5-31 “Local Events” web page

Alarm output 1:

Here you can activate the digital alarm output and read the current status (if a red “o” is pres­ent, this event has occurred).

Events: here you can determine under which conditions a digital alarm output should report
an error.

– Power Supply lost: in the event that US1 or US2 is lost
– Monitored link down: under “Advanced”, select the ports to which link down behavior

should be reported.

– MRP Ring Failure: indicates an error message in the event of an MRP ring error.

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– Pluggable Memory missing: an error message is generated if no memory card is pres-

ent.

5.2.2.12 Quality of Service

Broadcast Limiter

Broadcast: the broadcast limiter can be activated or deactivated here.

Broadcast Threshold: set the threshold value in frames per second for the broadcast limiter
here. The entered value is rounded down to the next valid value.

Multicast: the multicast limiter can be activated or deactivated here.

Multicast Threshold: set the threshold value in frames per second for the multicast limiter
here. The entered value is rounded down to the next valid value.

Unknown Unicast: the limiter for unknown unicasts can be activated or deactivated here.
Unicasts of a MAC address that has been learned by the switch are not affected.

Unicast Threshold: set the threshold value in frames per second for the limiter of unknown
unicasts here. The entered value is rounded down to the next valid value.

Flow Control

Port Configuration: clicking on the “Configure Flow Control per port” link opens the “Port
Configuration” web page, which contains the configuration options for flow control.

Port Configuration Table: clicking on the “Configure Flow control for multiple ports at once”
link opens the “Port Configuration Table” web page where flow control can be configured for
all ports.

Figure 5-32 “Quality of Service” web page

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5.2.3 Diagnostics area of WBM

5.2.3.1 LLDP Topology

For additional information, please refer to “Link Layer Discovery Protocol (LLDP)” on
page 65.

5.2.3.2 RSTP Diagnostic

Figure 5-33 “RSTP Diagnostic” web page

Designated Root: indicates the root bridge for this spanning tree.

Root Port: indicates the port to which the root is connected. If the root is not directly con­nected, it shows the direction of the root.

Root Cost: displays the total path costs for the root.

Topology Changes: indicates the number of topology changes.

Last Topology Change: indicates when the last topology change took place.

Hello Time: shows the hello time set at the root.

Forward Delay: shows the forward delay set at the root.

Max Age: shows the max age time set at the root.

Clicking on the “Redundancy Port Table” button opens a table with information on the indi­vidual ports and their redundancy mechanism assignment.

5.2.3.3 MRP Diagnostic

Operating Mode: indicates the current MRP device status.

MRP Manager Function: indicates whether an MRP manager license (MRM) is available.

The following fields are only available after selecting “Manager” as the operating mode.

Ring Status: indicates the current status of the MRP ring.

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Configuration and diagnostics in web-based management

Change Counter: indicates the number of changes in state in the MRP ring.

Clicking on the “Redundancy Port Table” button opens a table with information on

the individual ports and their redundancy mechanism assignment.

Figure 5-34 “MRP Diagnostic” web page

5.2.3.4 Current VLANs

For additional information, refer to “Current VLANs” on page 74.

5.2.3.5 Current Multicast Groups

For additional information, refer to “Multicast filtering” on page 69.

5.2.3.6 Port Mirroring

Figure 5-35 “Port Mirroring” web page

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Global Status:
– Enable: port mirroring is activated globally
– Disable: port mirroring is deactivated globally

Destination Port: select the port to which the measuring device (PC) is connected here.

Mirrored Ports (Ingress): specify the ports from which the incoming data traffic should be
mirrored here.

Mirrored Ports (Egress): specify the ports from which the outgoing data traffic should be mir­rored here.

5.2.3.7 Trap Manager

Figure 5-36 “Trap Manager” web page

Trap Mode:
– Enable: sending of SNMP traps is enabled
– Disable: sending of SNMP traps is disabled

Trap Server: all trap servers which are to receive SNMP traps from this device are displayed
here.

Add Trap Server: enter the IP address of a trap server and click on “Add&Save” to create
this trap server.

Test Trap Connection: the connection to the trap server is tested by clicking on the “Send
Trap” button.

The table lists the SNMP traps which can be sent by the device. Here you can select the
actions for which SNMP traps should be sent.

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Configuration and diagnostics in web-based management

5.2.3.8 Port Counter

Figure 5-37 “Port Counter” web page

Here you will find an overview of the port statistics.

5.2.3.9 Port Utilization

Figure 5-38 “Port Utilization” web page

Here you will find an overview of the port utilization for this device as a percentage. For a
detailed overview, click on the graph of an individual port.

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5.2.3.10 SFP Diagnostics

Figure 5-39 “SFP Diagnostics” web page

Here you will find an overview of the SFP ports.

Interface/Port: the ports that can be used with SFP modules are displayed here. Clicking on
a port number opens the port configuration for that port.

Type: the type of SFP module used is displayed here. If no SFP module is inserted, “NO
SFP” is displayed.

Serial No: the serial number of the SFP module used is displayed in this column.

RX Power (dBm): the incoming power level is displayed in this column.

TX Power (dBm): the outgoing power level is displayed in this column.

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Configuration and diagnostics via Command Line Interface (CLI)

6 Configuration and diagnostics via

Command Line Interface (CLI)

6.1 Using the Command Line Interface (CLI)

The Command Line Interface (CLI) is a text-based tool that can be used to configure and
diagnose the switch. The CLI is accessed by means of a connection via Telnet (factory de­fault) or SSH. The configuration of the CLI service via the switch's web-based management
is described in “Assigning IP parameters via BootP” on page 19.

6.2 Access to the CLI

The CLI is accessed via a Telnet connection (factory default) or SSH connection from a
management host, e.g., a PC. For example, the Windows command prompt or the PuTTY
freeware tool can be used as an input terminal.

The switch requires an IP address and a subnet mask in order to access the CLI. The con­figuration of the switch network parameters is described in “Assigning IP parameters via
BootP” on page 19 and “Network” on page 39.

Figure 6-1 Configuration of a Telnet connection in PuTTY

Figure 6-2 Command terminal in PuTTY

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Figure 6-3 Establishing a Telnet connection via Windows command prompt

Figure 6-4 Command terminal in Windows command prompt

6.3 Basic principles for using CLI commands

In this section, the CLI command names are written in bold. CLI parameters are written in
italics and must be replaced by appropriate values (e.g., names or numbers). If a command
has several parameters, the order of these must be strictly observed.

The parameters of a command may be mandatory, optional or a selection of values (see
Table “Structure of CLI commands” on page 58).

Table 6-1 Structure of CLI commands

Symbol Example Description

< > Angle brackets <Value> Denotes a mandatory parameter that must be entered in

place of the brackets

[ ] Square brackets [Value] Denotes an optional parameter that can be entered in place

of the brackets

{} Braces {choice1 | choice2} Denotes the mandatory selection of a value from a given list

of values
| Vertical bar choice1 | choice2 Separates mutually exclusive selection options
[{}] Braces within square

brackets

[{choice 1 | choice 2}] Denotes a selection within an optional parameter

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Configuration and diagnostics via Command Line Interface (CLI)

6.4 Command syntax

A command consists of one or more terms which can be followed by one or more parame­ters. These parameters can be mandatory or optional values.

Some commands, e.g., show network or clear config, do not require parameters. Other
commands, e.g., network parms, require values to be specified after the command name.
The parameters must be entered in the specified order, whereby optional parameters al­ways follow mandatory parameters.

The following example illustrates the syntax using the command network parms:

network parms <ipaddr> <netmask> [gateway]

• network parms is the command name.

• <ipaddr> and <netmask> are parameters and represent mandatory values, which must be
specified after the entry of the command name.

• [gateway] is an optional parameter, which means that a value does not have to be speci­fied.

The following examples illustrate the correct syntax for entering the network parms com­mand:

network parms 192.168.10.42 255.255.255.0

network parms 192.168.10.42 255.255.255.0 192.168.10.0

The following examples illustrate incorrect syntax for entering the network parms com-
mand:

network parms 192.168.10.42 - missing mandatory parameter

network parms 255.255.255.0 - missing mandatory parameter

network parms 255.255.255.0 192.168.10.42 - incorrect parameter sequence

6.5 Using the CLI Help

Entering a question mark (?) in the command prompt displays a list of all the commands cur­rently available together with a brief description.

Table 6-2 Structure of CLI commands

Command Description

? Display available commands

Typing a question mark (?) after each entry displays all the available command names or
parameters from this point on.

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If the Help output displays a parameter in angle brackets, this parameter must be replaced
by a value. Example:

<ipaddr> Enter the IP address

If at any point there are no further command names or parameters available or further pa­rameters are optional, the following message appears in the output prompting you to exe­cute the command that was entered:

<cr> Press Enter to execute the command

6.6 Auto-completion of commands

The Autocomplete command is an additional way of writing a command, provided enough
letters have already been entered to clearly identify the command name. As soon as
enough letters have been entered, press space or TAB to automatically complete the
words.

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Configuration and diagnostics via Command Line Interface (CLI)

6.7 Using the CLI Network Scripting UI

The CLI Network Scripting UI enables CLI commands from scripts to be loaded onto the
switch via the network. This means that the switch can be configured and diagnosed using
a URL via PC or from a controller. Each command that is entered is confirmed by the switch,
either with OK (config commands) or by outputting the switch data (show commands).

The command entry must follow a specific syntax:

http://ipaddress/php/command.php?usr=username&pwd=password&cmd=cli_com-

mand_1 | cli_command_2 | ....

The following examples illustrate the correct syntax for entering commands via the CLI Net­work Scripting UI:

Example: changing the device name

http://192.168.10.42/php/command.php?usr=admin&pwd=private&cmd=device-identity
name Switch2000

Example: displaying the network parameters and changing the user password

http://192.168.10.42/php/command.php?usr=admin&pwd=private&cmd=show network |
users passwd private2

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Simple Network Management Protocol (SNMP)

7 Simple Network Management Protocol (SNMP)

7.1 General function

SNMP is a non-proprietary standard for network management. It defines commands for
reading and writing information, and defines formats for error and status messages. SNMP
is also a structured model that consists of agents, their relevant Management Information
Base (MIB), and a manager. The manager is a software tool that is executed on a network
management station. The agents are located inside switches, bus terminals, routers, and
other devices that support SNMP. The task of the agents is to collect and provide data in the
MIB. The manager regularly requests and displays this information. The devices can be
configured by writing data from the manager to the MIB. In the event of an emergency, the
agents can also send messages (traps) directly to the manager.

All configuration modifications, which are to take effect after a device restart, must be
saved permanently using the “flWorkFWCtrlConfSave” object.

SNMP interface

All managed Factoryline components ha ve a n SN MP ag ent. The a gen t of t his t ype o f de vice
manages the following MIBs (Management Information Bases):

– FL Managed Infrastructure MIB
– lldpMIB
– RFC1213 MIB
–rmon
–snmpMIB
–ifMIB
– snmpFrameworkMIB
–etherMIB
–pBridgeMIB
–qBridgeMIB
–dot1dBridge
–rstpMIB
–IP MIB

Network management stations, such as a PC with a MIB browser, can read and modify con­figuration and diagnostic data from network devices via the Simple Network Management
Protocol. In addition, any SNMP tools or network management tools can be used to access
Factoryline products via SNMP. To do this, the MIBs supported by the relevant device must
be made available to the SNMP management tools.

On the one hand, these are globally valid MIBs, which are specified and described in RFCs
(Requests for Comments). This includes, for example, MIB2 according to RFC1213, which
is supported by all SNMP-compatible network devices. On the other hand, manufacturers
can specify their own SNMP objects, which are then assigned to a private manufacturer
area in the large SNMP object tree. Manufacturers are then responsible for their own private
(enterprise) areas, i.e., they must ensure that only one object (object name and parameters)

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is assigned to an object ID and can be published. If an object is no longer needed, it can be
labeled as “expired”, but it cannot be reused with other parameters under any circum­stances.

Phoenix Contact provides notification of ASN1 SNMP objects by publishing their descrip­tions on the Internet.

Reading SNMP objects is not password-protected. However, a password is required for
read access in SNMP, but this is set to “public”, which is usual for network devices, and can­not be modified. By default upon delivery, the password for write access is “private” and can
be changed by the user.

SNMP and the web interface use the same password, which can be changed by the user.

Use of SNMPv3

When using SNMPv3, several points must be observed when accessing the SNMP objects.
In contrast to SNMPv2, SNMPv3 is a secure protocol via which the message content and
the passwords are transmitted in encrypted form.

To use SNMPv3, the switch must first be configured accordingly (see “Service” on page 40).
In addition, you need to change the MIB browser to SNMPv3 and create an SNMPv3 user
with the following parameters:

- MD5 as the algorithm for authentication

- DES as the algorithm for privacy

- User name: “admin”

- Password: current device password (Note: the password must be at least 8 characters
long. If the default password is “private”, “private_” must be used for access.).

Another benefit for the user is the option of sending traps using the Simple Network Man­agement Protocol.

Management Information Base (MIB)

Description which contains all the data (objects and variables) required for network man­agement.

Agent

An agent is a software tool which collects data from the network device on which it is in­stalled and transmits this data on request. Agents reside in all managed network compo­nents and transmit the values of specific settings and parameters to the management sta­tion. On a request of a manager or on the occurrence of a specific event, the agent transmits
the collected information to the management station.

Not all devices support all object classes. If an unsupported object class is requested, an
error message is generated. If an attempt is made to modify an unsupported object class,
an error message is also generated.

The descriptions of the individual SNMP objects are located in the respective MIBs and can
be downloaded from the Phoenix Contact e-shop. Note that the MIB is located in a firm­ware’s respective software package (zip file).

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Link Layer Discovery Protocol (LLDP)

8 Link Layer Discovery Protocol (LLDP)

8.1 Basics

LLDP The switch supports LLDP according to IEEE 802.1ab and enables topology detection of

devices that also have LLDP activated.

Advantages of using LLDP:
– Improved error location detection
– Improved device replacement
– More efficient network configuration

The following information is received by or sent to neighbors, as long as LLDP is activated:
– The device transmits its own management and connection information to neighboring

devices.

– The device receives management and connection information from neighboring devic-

es.

Displaying LLDP informa­tion

LLDP general The Link Layer Discovery Protocol (LLDP) according to 802.1ab is used by network devices

The information that is collected is presented in a table in WBM. The table includes the two
port numbers that are used to connect both devices together, as well as the IP address, the
device name of neighboring devices, and the device type.

Please note that a blocking port using RSTP does not receive LLDP BPDUs, but does
send them.

to learn and maintain the individual neighborhood relationships.

Function

A network infrastructure component transmits a port-specific BPDU (Bridge Protocol Data
Unit), which contains the individual device information, at the “Message Transmit Interval”
to each port in order to distribute topology information. The peer connected to the relevant
port learns the corresponding port-specific neighbors from these BPDUs.

The information learned from the BPDUs is saved for a defined period of time known as the
TTL (Time To Live) value. Subsequent receipt of the same BPDUs increases the TTL value
again and the information is still saved. When the TTL elapses, the neighbor information is
deleted.

The switch manages a maximum of 50 items of neighborhood information, all other infor­mation is ignored.

If several neighbors are displayed on one switch port, then at least one other switch/hub,
which does not support or has not activated LLDP, is installed between this switch and
the neighbor indicated.

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Table 8-1 Event table for LLDP

Link Layer
Discovery Protocol

Event Activity of the individual

LLDP agent

Activate LLDP agent or de­vice startup

Deactivate LLDP agent or
software reset

Transmit LLDP BPDUs to all
ports

Transmit LLDP BPDUs with
a TTL value of 0 seconds to
all ports

Link up Transmit port-specific LLDP

BPDUs

Link down Delete all neighbors for this

port

Timer (Message Transmit
Interval)

Cyclic transmission of
BPDUs to all ports

Aging (Time To Live) Delete neighborhood infor-

mation

Receiving a BPDU from a
new neighbor

Extend list of neighbors and
respond with port-specific
BPDU

Response of the neigh­boring LLDP agent

Include sender in the list of
neighbors

Delete sender from the list
of neighbors

Include sender in the list of
neighbors

-

Update information

-

Include sender in the list of
neighbors

Figure 8-1 “Link Layer Discovery Protocol” web page

For devices in the 2000/2100 version, LLDP can be activated or deactivated globally for all
ports. Devices in the 2200/2300 version also offer a port-based configuration option for
sending and receiving LLDP telegrams.

The LLDP can be configured on the “Service” page in WBM (see “Service” on page 40).

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LLDP topology

Link Layer Discovery Protocol (LLDP)

Figure 8-2 “LLDP Topology” web page

A table is created for known neighbors and contains the following four columns:
–Local Port

Contains the port number of the local switch that is used to connect a neighbor to this
switch.

– Chassis ID

MAC address of the connected neighboring device

–IP address

Indicates the management IP address of the neighbor.

– Remote Port

Indicates the port number of the neighboring switch that is used to connect the neighbor
to the local switch.

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9 Multicast filtering

9.1 Multicast Configuration

9.1.0.1 Multicast Filtering

Multicast filtering

Figure 9-1 “Multicast Filtering” web page

IGMP Snooping:
– disable: the “IGMP Snooping” function is disabled
– enable: the “IGMP Snooping” function is enabled

Snoop Aging Time: the snoop aging time can be set here. The snoop aging time is the time
period during which membership reports are expected from the querier. If no membership
reports are received during this time, the associated ports are deleted from the multicast
groups. The value must be between 30 and 3600 (default: 300).

IGMP Query Version: you can set the IGMP query version which the switch should use to
send the queries here.

Query Interval: set the interval in which the switch should send the queries here.

Current Querier: displays the IP address of the current querier in the network.

Extension FUQ (Forward Unknown to Querier): select here whether a multicast group
should be created for unknown multicast packets which forwards the packets in the direc­tion of the querier.

Extension BUQ (Block Unknown at Querier): select here whether unknown multicast pack­ets should be blocked at the querier.

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Auto Query Ports: here you can set whether automatic selection of additional query ports is
activated. Ports are automatically integrated in every multicast group. In the case of redun­dancy switch-over, the multicast packets are not blocked because the ports required are al­ready members of the multicast group.

Clear AQP: button for deleting the ports that are automatically assigned to the groups.

Static Query Ports: select which ports are static query ports.

Clicking on the “Current multicast groups” link opens the “Current Multicast Groups” web
page as a pop-up.

The device can manage up to 50 dynamic multicast groups.

Figure 9-2 “Current Multicast Groups” web page

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10 Virtual Local Area Network (VLAN)

10.0.0.1 VLAN Configuration

Figure 10-1 “VLAN Configuration” web page

VLAN Mode:
– Transparent: in “Transparent” mode, the switch processes the incoming data packets

as described in the “Frame switching” section. Neither the structure nor the contents of
the data packets are changed. The information about VLAN assignment from a tag that
may be contained in the data packet is ignored.

– Tagged: in “Tagged” mode, the switch forwards the data packets depending on the

VLAN assignment.

Clicking on the “Static VLAN Configuration” button takes you to the “Static VLAN Configu­ration” page. Up to 8 (2000/2100 version) or up to 32 (2200/2300 version) static VLANs can
be set up here.

Virtual Local Area Network (VLAN)

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Pop-up: Static VLAN Configuration

Figure 10-2 “Static VLAN Configuration” web page

List of Static VLANs: all VLANs created up to this point are displayed here.

VLAN ID: set the VLAN ID which you wish to assign to the new VLAN here. The value must
be between 2 and 4094.

VLAN Name: specify the name of the VLAN which you wish to create here.

VLAN Memberships: specify which ports should be located in the VLAN.
– T: tagged port
– U: untagged port
– -: not a member of the VLAN

Use the “Delete” button to delete the VLAN selected in the list.

VLAN 1 cannot be deleted.

Clicking on the “VLAN port configuration” button takes you to the “VLAN Port configuration”
page.

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Virtual Local Area Network (VLAN)

Pop-up: VLAN Port configuration

Figure 10-3 “VLAN Port configuration” web page

Port number: enter the port for which you wish to change the VLAN settings.

Default VLAN ID: set the VLAN ID to which the port should be assigned here.

Default Priority: set the VLAN priority for the selected port here.

Ingress Filter: set here whether the ingress filter should be activated.

Clicking on the “VLAN Port Table” button takes you to the VLAN port table.

Pop-up: VLAN Port Configuration Table

Figure 10-4 “VLAN Port Configuration Table” web page

Clicking on the “Current VLANs” link opens the “Current VLANs” web page as a pop-up.

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Current VLANs

This page lists the current VLANs and displays the ports for each VLAN, which are either
“Tagged” or “Untagged”.

Figure 10-5 “Current VLANs” web page

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Technical data and ordering data

11 Technical data and ordering data

11.1 Technical data for devices in the 2000 version

General data

Function Ethernet/Fast Ethernet Switch; conforms to standard IEEE 802.3/802.3u

Switch principle Store and forward

Address table 8192 MAC addresses

SNMP Version 2c, Version 3

Transmission capacity per port
64-byte packet size, half duplex

Supported MIBs MIB II and private SNMP objects from Phoenix Contact

Housing dimensions (width x height x depth) in mm 45 x 130 x 115 (depth from top edge of DIN rail)

Permissible operating temperature 0°C to 60°C

Permissible storage temperature -40°C to +85°C

Degree of protection IP20 (not assessed in compliance with UL, assessed by PTL), IEC 60529

Protection class Class 3 VDE 0106; IEC 60536, for inside use only

Humidity

Operation 10% to 95%, non-condensing

Storage 10% to 95%, non-condensing

Air pressure

Operation 86 kPa to 108 kPa, 1500 m above sea level

Storage 66 kPa to 108 kPa, 3500 m above sea level

Ambient compatibility Free from substances that would hinder coating with paint or varnish accord-

Mounting position Perpendicular to a standard DIN rail

Connection to protective earth ground Snapped onto a grounded DIN rail

Pollution degree 2

Overvoltage category None

Weight Up to 220 g, typical

At 10 Mbps: 14880 pps (packets per second)
At 100 Mbps: 148800 pps

ing to VW specification

Supply voltage (US)

Connection Via COMBICON; maximum conductor cross section = 1.5 mm2, use copper

Nominal value 24 V DC

Permissible voltage range 18 V DC to 32 V DC

Permissible ripple (within the permissible voltage range) 3.6 V

Current consumption at US for 18 V DC, maximum 300 mA (FL SWITCH 2005)

Current consumption at US for 24 V DC, maximum 165 mA (FL SWITCH 2005)

Test voltage 170 V DC for one minute

wires that are suitable for 75°C or equivalent

PP

350 mA (FL SWITCH 2008)

180 mA (FL SWITCH 2008)

Interfaces

Number of Ethernet ports 5 / 8

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Ethernet interfaces

Properties of the RJ45 ports

Number Up to 8 with auto crossing and auto negotiation

Connection format 8-pos. RJ45 socket on the switch

Connection medium Twisted pair cable

Cable impedance 100 ohms

Transmission speed 10/100 Mbps

Maximum network segment expansion 100 m

Mechanical tests

Shock testing according to IEC 60068-2-27 Operation: 30g,

Vibration resistance according to IEC 60068-2-6 Operation/storage/transport: 2g, 10 Hz - 150 Hz

Free fall according to IEC 60068-2-32 1 m

half-sine shock pulse

Conformance with EMC Directives

Developed according to IEC 61000-6-2

Noise emission according to EN 55022: 1998
+ A1: 2000 + A2: 2003 (interference voltage)

Noise emission according to EN 55011: 1998
+ A1: 1999 + A2: 2002 (electromagnetic interference)

Noise immunity according to EN 61000-4-2 (IEC 1000-4-2) (ESD)

Contact discharge:
Air discharge:
Indirect discharge:

Noise immunity according to EN 61000-4-3 (IEC 1000-4-3)
(electromagnetic fields)

Noise immunity according to EN 61000-4-6 (IEC 1000-4-6) (conducted) Requirements according to DIN EN 61000-6-2

Noise immunity according to EN 61000-4-4 (IEC 1000-4-4) (burst)

Data cables:
Power supply:

Noise immunity according to EN 61000-4-5 (IEC 1000-4-5) (surge)

Data cables:
Power supply:

Class A (industrial applications)

Class A (industrial applications)

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion B
Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A

Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 2, criterion A
Test intensity 1, criterion A

Additional certifications

RoHS

11.2 Technical data for devices in the 2100 version

General data

Function Ethernet/Fast Ethernet/Gigabit Switch; conforms to standard

Switch principle Store and forward

Address table 8192 MAC addresses

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IEEE 802.3/802.3u/802.3ab

Technical data and ordering data

General data

SNMP Version 2c, Version 3

Transmission capacity per port
64-byte packet size, half duplex

Supported MIBs MIB II and private SNMP objects from Phoenix Contact

Housing dimensions (width x height x depth) in mm 45 x 130 x 115 (depth from top edge of DIN rail)

Permissible operating temperature 0°C to 60°C

Permissible storage temperature -40°C to +85°C

Degree of protection IP20 (not assessed in compliance with UL, assessed by PTL), IEC 60529

Protection class Class 3 VDE 0106; IEC 60536, for inside use only

Humidity

Operation 10% to 95%, non-condensing

Storage 10% to 95%, non-condensing

Air pressure

Operation 86 kPa to 108 kPa, 1500 m above sea level

Storage 66 kPa to 108 kPa, 3500 m above sea level

Ambient compatibility Free from substances that would hinder coating with paint or varnish accord-

Mounting position Perpendicular to a standard DIN rail

Connection to protective earth ground Snapped onto a grounded DIN rail

Pollution degree 2

Overvoltage category None

Weight Up to 240 g, typical

At 10 Mbps: 14880 pps (packets per second)
At 100 Mbps: 148800 pps
At 1000 Mbps: 1488100 pps

ing to VW specification

Supply voltage (US)

Connection Via COMBICON; maximum conductor cross section = 1.5 mm2, use copper

Nominal value 24 V DC

Permissible voltage range 18 V DC to 32 V DC

Permissible ripple (within the permissible voltage range) 3.6 V

Current consumption at US for 18 V DC, maximum 350 mA (FL SWITCH 2105)

Current consumption at US for 24 V DC, maximum 225 mA (FL SWITCH 2105)

Test voltage 170 V DC for one minute

wires that are suitable for 75°C or equivalent

PP

400 mA (FL SWITCH 2108)

275 mA (FL SWITCH 2108)

Interfaces

Number of Ethernet ports 5 / 8

Ethernet interfaces

Properties of the RJ45 ports

Number Up to 8 with auto crossing and auto negotiation

Connection format 8-pos. RJ45 socket on the switch

Connection medium Twisted pair cable

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Ethernet interfaces (Fortsetzung)

Cable impedance 100 ohms

Transmission speed 10/100/1000 Mbps

Maximum network segment expansion 100 m

Mechanical tests

Shock testing according to IEC 60068-2-27 Operation: 30g,

Vibration resistance according to IEC 60068-2-6 Operation/storage/transport: 2g, 10 Hz - 150 Hz

Free fall according to IEC 60068-2-32 1 m

half-sine shock pulse

Conformance with EMC Directives

Developed according to IEC 61000-6-2

Noise emission according to EN 55022: 1998
+ A1: 2000 + A2: 2003 (interference voltage)

Noise emission according to EN 55011: 1998
+ A1: 1999 + A2: 2002 (electromagnetic interference)

Noise immunity according to EN 61000-4-2 (IEC 1000-4-2) (ESD)

Contact discharge:
Air discharge:
Indirect discharge:

Noise immunity according to EN 61000-4-3 (IEC 1000-4-3)
(electromagnetic fields)

Noise immunity according to EN 61000-4-6 (IEC 1000-4-6) (conducted) Requirements according to DIN EN 61000-6-2

Noise immunity according to EN 61000-4-4 (IEC 1000-4-4) (burst)

Data cables:
Power supply:

Noise immunity according to EN 61000-4-5 (IEC 1000-4-5) (surge)

Data cables:
Power supply:

Class A (industrial applications)

Class A (industrial applications)

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion B
Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A

Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 2, criterion A
Test intensity 1, criterion A

Additional certifications

RoHS @EEE 2002/95/EC - WEEE 2002/96/EC



11.3 Technical data for devices in the 2200 version

General data

Function Ethernet/Fast Ethernet Switch; conforms to standard IEEE 802.3/802.3u

Switch principle Store and forward

Address table 8192 MAC addresses

SNMP Version 2c, Version 3

Transmission capacity per port
64-byte packet size, half duplex

Supported MIBs MIB II and private SNMP objects from Phoenix Contact

Housing dimensions (width x height x depth) in mm 45 x 130 x 115 (depth from top edge of DIN rail)

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PHOENIX CONTACT 107065_en_01

At 10 Mbps: 14880 pps (packets per second)
At 100 Mbps: 148800 pps

Technical data and ordering data

General data

Permissible operating temperature -40°C to 70°C

Permissible storage temperature -40°C to +85°C

Degree of protection IP20 (not assessed in compliance with UL, assessed by PTL), IEC 60529

Protection class Class 3 VDE 0106; IEC 60536, for inside use only

Humidity

Operation 10% to 95%, non-condensing

Storage 10% to 95%, non-condensing

Air pressure

Operation 68 kPa to 108 kPa, 3000 m above sea level

Storage 66 kPa to 108 kPa, 3500 m above sea level

Ambient compatibility Free from substances that would hinder coating with paint or varnish accord-

Mounting position Perpendicular to a standard DIN rail

Connection to protective earth ground Snapped onto a grounded DIN rail

Pollution degree 2

Overvoltage category None

Weight Up to 260 g, typical

ing to VW specification

Supply voltage (US1/US2 redundant)

Connection Via COMBICON; maximum conductor cross section = 1.5 mm2, use copper

Nominal value 24 V DC

Permissible ripple (within the permissible voltage range) 3.6 V

Permissible voltage range 9 V DC to 57 V DC for the following devices

Permissible voltage range 12 V DC to 57 V DC for the following devices

Current consumption at US for 9 V DC, maximum (without digital output) 1.2 A (FL SWITCH 2205)

wires that are suitable for 75°C or equivalent

PP

FL SWITCH 2205
FL SWITCH 2208
FL SWITCH 2207-FX
FL SWITCH 2207-FX SM
FL SWITCH 2206-2FX
FL SWITCH 2206-2FX SM
FL SWITCH 2206-2FX ST
FL SWITCH 2206-2FX SM ST

FL SWITCH 2204-2TC-2SFX
FL SWITCH 2206-2SFX

1.3 A (FL SWITCH 2208)

1.4 A (FL SWITCH 2207-FX)

1.4 A (FL SWITCH 2207-FX SM)

1.5 A (FL SWITCH 2206-2FX)

1.5 A (FL SWITCH 2206-2FX SM)

1.5 A (FL SWITCH 2206-2FX ST)

1.5 A (FL SWITCH 2206-2FX SM ST)

107065_en_01 PHOENIX CONTACT 79

FL SWITCH 2000

Supply voltage (US1/US2 redundant) (Fortsetzung)

Current consumption at US for 12 V DC, maximum (without digital output) 1.4 A (FL SWITCH 2204-2TC-2SFX)

1.4 A (FL SWITCH 2206-2SFX)

Current consumption at US for 24 V DC, maximum (without digital output) 170 mA (FL SWITCH 2205)

190 mA (FL SWITCH 2208)
220 mA (FL SWITCH 2207-FX)
220 mA (FL SWITCH 2207-FX SM)
260 mA (FL SWITCH 2206-2FX)
260 mA (FL SWITCH 2206-2FX SM)
260 mA (FL SWITCH 2206-2FX ST)
260 mA (FL SWITCH 2206-2FX SM ST)
250 mA (FL SWITCH 2204-2TC-2SFX)
230 mA (FL SWITCH 2206-2SFX)

Test voltage 170 V DC for one minute

Interfaces

Number of Ethernet ports 5 / 8

Digital alarm output

Voltage 12 - 58 V DC

Current carrying capacity 100 mA, typical/0.7 A, maximum (1 minute)

Ethernet interfaces

Properties of the RJ45 ports

Number Up to 8 with auto crossing and auto negotiation

Connection format 8-pos. RJ45 socket on the switch

Connection medium Twisted pair cable

Cable impedance 100 ohms

Transmission speed 10/100 Mbps

Maximum network segment expansion 100 m

Properties of the fiberglass ports

Number Up to 2

Connection format SC/ST/SFX format (depending on the device used)

Connection medium Fiberglass

Connecting plug SC/ST/LC format (depending on the device used)

Transmission speed 100 Mbps

Maximum network segment expansion Depends on the SFP module/fiber type used

Fiber type Depends on the SFP module/fiber type used

Laser protection class 1

Wavelength 850/1310 nm (depending on the device/SFP module used)

Properties of the combo ports

Number Up to 2

Transmission speed 100 Mbps

Wavelength Depends on the SFP module used

Maximum transmission length Depends on the SFP module used

80

PHOENIX CONTACT 107065_en_01

Technical data and ordering data

Mechanical tests

Shock testing according to IEC 60068-2-27 Operation: 30g,

Vibration resistance according to IEC 60068-2-6 Operation/storage/transport: 5g, 10 Hz - 150 Hz

Free fall according to IEC 60068-2-32 1 m

half-sine shock pulse

Conformance with EMC Directives

Developed according to IEC 61000-6-2

Noise emission according to EN 55022: 1998
+ A1: 2000 + A2: 2003 (interference voltage)

Noise emission according to EN 55011: 1998
+ A1: 1999 + A2: 2002 (electromagnetic interference)

Noise immunity according to EN 61000-4-2 (IEC 1000-4-2) (ESD)

Contact discharge:
Air discharge:
Indirect discharge:

Noise immunity according to EN 61000-4-3 (IEC 1000-4-3)
(electromagnetic fields)

Noise immunity according to EN 61000-4-6 (IEC 1000-4-6) (conducted) Requirements according to DIN EN 61000-6-2

Noise immunity according to EN 61000-4-4 (IEC 1000-4-4) (burst)

Data cables:
Power supply:

Noise immunity according to EN 61000-4-5 (IEC 1000-4-5) (surge)

Data cables:
Power supply:

Class A (industrial applications)

Class A (industrial applications)

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion B
Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A

Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 2, criterion A
Test intensity 1, criterion A

Additional certifications

RoHS @EEE 2002/95/EC - WEEE 2002/96/EC

IECEx:
IEC 60079-0:2011, 6
IEC 60079-15:2010, 4
ATEX:
EN 60079-0:2012+A11:2013
EN 60079-15:2010
Field of application:
II 3 G Ex nA IIC T4 Gc
IECEx ULD 16.0018X

th

Edition

th

Edition



11.4 Technical data for devices in the 2300 version

General data

Function Ethernet/Fast Ethernet/Gigabit Switch; conforms to standard

Switch principle Store and forward

Address table 8192 MAC addresses

107065_en_01 PHOENIX CONTACT 81

IEEE 802.3/802.3u/802.3ab

FL SWITCH 2000

General data

SNMP Version 2c, Version 3

Transmission capacity per port
64-byte packet size, half duplex

Supported MIBs MIB II and private SNMP objects from Phoenix Contact

Housing dimensions (width x height x depth) in mm 45 x 130 x 115 (depth from top edge of DIN rail)

Permissible operating temperature -40°C to 70°C

Permissible storage temperature -40°C to +85°C

Degree of protection IP20 (not assessed in compliance with UL, assessed by PTL), IEC 60529

Protection class Class 3 VDE 0106; IEC 60536, for inside use only

Humidity

Operation 10% to 95%, non-condensing

Storage 10% to 95%, non-condensing

Air pressure

Operation 53 kPa to 108 kPa, 5000 m above sea level

Storage 53 kPa to 108 kPa, 5000 m above sea level

Ambient compatibility Free from substances that would hinder coating with paint or varnish accord-

Mounting position Perpendicular to a standard DIN rail

Connection to protective earth ground Snapped onto a grounded DIN rail

Pollution degree 2

Overvoltage category None

Weight Up to 310 g, typical

At 10 Mbps: 14880 pps (packets per second)
At 100 Mbps: 148800 pps
At 1000 Mbps: 1488100 pps

ing to VW specification

Supply voltage (US1/US2 redundant)

Connection Via COMBICON; maximum conductor cross section = 1.5 mm2, use copper

Nominal value 24 V DC

Permissible voltage range 12 V DC to 57 V DC

Permissible ripple (within the permissible voltage range) 3.6 V

Current consumption at US for 12 V DC, maximum 1.4 A (FL SWITCH 2308)

Current consumption at US for 24 V DC, maximum 280 mA (FL SWITCH 2308)

Test voltage 170 V DC for one minute

wires that are suitable for 75°C or equivalent

PP

1.5 A (FL SWITCH 2304-2GC-2SFP)

1.5 A (FL SWITCH 2306-2SFP)

290 mA (FL SWITCH 2304-2GC-2SFP)
280 mA (FL SWITCH 2306-2SFP)

Interfaces

Number of Ethernet ports 8

Digital alarm output

Voltage 12 - 57 V DC

Current carrying capacity 100 mA, maximum 700 mA / 1 minute

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PHOENIX CONTACT 107065_en_01

Technical data and ordering data

Ethernet interfaces

Properties of the RJ45 ports

Number Up to 8 with auto crossing and auto negotiation

Connection format 8-pos. RJ45 socket on the switch

Connection medium Twisted pair cable

Cable impedance 100 ohms

Transmission speed 10/100/1000 Mbps

Maximum network segment expansion 100 m

Properties of the fiberglass ports

Number Up to 2

Connection format Gigabit SFP format

Connection medium Fiberglass

Connecting plug LC format (SFP module)

Transmission speed 100/1000 Mbps (depending on the SFP module used)

Maximum network segment expansion Depends on the SFP module/fiber type used

Fiber type Depends on the SFP module used

Laser protection class 1

Wavelength 850/1310/1550 nm (depending on the device/SFP module used)

Properties of the combo ports

Number Up to 2

Transmission speed 100/1000 Mbps

Wavelength Depends on the SFP module used

Maximum transmission length Depends on the SFP module used

Mechanical tests

Shock testing according to IEC 60068-2-27 Operation: 30g,

Vibration resistance according to IEC 60068-2-6 Operation/storage/transport: 5g, 10 Hz - 150 Hz

Free fall according to IEC 60068-2-32 1 m

half-sine shock pulse

Conformance with EMC Directives

Developed according to IEC 61000-6-2

Noise emission according to EN 55022: 1998
+ A1: 2000 + A2: 2003 (interference voltage)

Noise emission according to EN 55011: 1998
+ A1: 1999 + A2: 2002 (electromagnetic interference)

Noise immunity according to EN 61000-4-2 (IEC 1000-4-2) (ESD)

Contact discharge:
Air discharge:
Indirect discharge:

Noise immunity according to EN 61000-4-3 (IEC 1000-4-3)
(electromagnetic fields)

Class A (industrial applications)

Class A (industrial applications)

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion B
Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A

107065_en_01 PHOENIX CONTACT 83

FL SWITCH 2000

Conformance with EMC Directives

Noise immunity according to EN 61000-4-6 (IEC 1000-4-6) (conducted) Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A

Noise immunity according to EN 61000-4-4 (IEC 1000-4-4) (burst)

Data cables:
Power supply:

Noise immunity according to EN 61000-4-5 (IEC 1000-4-5) (surge)

Data cables:
Power supply:

Requirements according to DIN EN 61000-6-2

Test intensity 3, criterion A
Test intensity 3, criterion A

Requirements according to DIN EN 61000-6-2

Test intensity 2, criterion A
Test intensity 1, criterion A

Additional certifications

RoHS @EEE 2002/95/EC - WEEE 2002/96/EC

IECEx:
IEC 60079-0:2011, 6th Edition
IEC 60079-15:2010, 4th Edition

ATEX:
EN 60079-0:2012+A11:2013
EN 60079-15:2010

Field of application:
II 3 G Ex nA IIC T4 Gc
IECEx ULD 16.0018X



Differences between this version and previous versions of the user manual

Rev. 00: initial version

Rev. 01: devices added

84

PHOENIX CONTACT 107065_en_01

Technical data and ordering data

11.5 Ordering data

Products

Description Order designation Order No. Pcs./Pkt.

Managed Switch with five 10/100 Mbps RJ45 ports FL SWITCH 2005 2702323 1

Managed Switch with eight 10/100 Mbps RJ45 ports FL SWITCH 2008 2702324 1

Managed Switch with five 10/100/1000 Mbps RJ45 ports FL SWITCH 2105 2702665 1

Managed Switch with eight 10/100/1000 Mbps RJ45 ports FL SWITCH 2108 2702666 1

Managed Switch with five 10/100 Mbps RJ45 ports FL SWITCH 2205 2702326 1

Managed Switch with eight 10/100 Mbps RJ45 ports FL SWITCH 2208 2702327 1

Managed Switch with seven 10/100 Mbps RJ45 ports and one FO port in SC
format for multimode

Managed Switch with seven 10/100 Mbps RJ45 ports and one FO port in SC
format for single mode

Managed Switch with six 10/100 Mbps RJ45 ports and two FO ports in SC for­mat for multimode

Managed Switch with six 10/100 Mbps RJ45 ports and two FO ports in SC for­mat for single mode

Managed Switch with six 10/100 Mbps RJ45 ports and two FO ports in ST for­mat for multimode

Managed Switch with six 10/100 Mbps RJ45 ports and two FO ports in ST for­mat for single mode

Managed Switch with four 10/100 Mbps RJ45 ports, two SFX combo ports,
and two SFX ports

Managed Switch with six 10/100 Mbps RJ45 ports and two SFX ports FL SWITCH 2206-2SFX 2702969 1

Managed Switch with eight 10/100/1000 Mbps RJ45 ports FL SWITCH 2308 2702652 1

Managed Switch with six 10/100/1000 Mbps RJ45 ports and two SFP ports FL SWITCH 2306-2SFP 2702970 1

Managed Switch with four 10/100/1000 Mbps RJ45 ports, two Gigabit combo
ports, and two SFP ports

FL SWITCH 2207-FX 2702328 1

FL SWITCH 2207-FX SM 2702329 1

FL SWITCH 2206-2FX 2702330 1

FL SWITCH 2206-2FX SM 2702331 1

FL SWITCH 2206-2FX ST 2702332 1

FL SWITCH 2206-2FX SM ST 2702333 1

FL SWITCH 2204-2TC-2SFX 2702334 1

FL SWITCH 2304-2GC-2SFP 2702653 1

Accessories

Description Order designation Order No. Pcs./Pkt.

Program and configuration memory, plug-in, 2 Gbytes SD FLASH 2GB 2988162 1

Program and configuration memory, plug-in, with MRP master license
(MRM), 2 Gbytes

FL Network Manager, SNMP-based configuration and firmware update soft­ware, for easy startup of Managed Switches

Universal end bracket E/NS 35 N 0800886 1

Gigabit SFP module for transmission up to 30 km with a wavelength of 1310 nmFL SFP LX 2891767 1

Gigabit SFP module for transmission up to 1 km with a wavelength of 850 nm FL SFP SX 2891754 1

Gigabit SFP module for transmission up to 80 km with a wavelength of 1550 nmFL SFP LX LH 2989912 1

Gigabit SFP module for transmission up to 100 m FL SFP GT 2989420 1

Gigabit SFP module for transmission up to 2 km with a wavelength of 1310 nm FL SFP SX2 2702397 1

The narrow form-factor plug-in module provides a fiber optic interface with a
data transmission speed of 100 Mbps with a wavelength of 1310 nm (long)

The narrow form-factor plug-in module provides a fiber optic interface with a
data transmission speed of 100 Mbps with a wavelength of 1310 nm (long).

Fast Ethernet SFP WDM module for transmission up to a maximum of 20 km
on a single fiber with a wavelength of 1310/1550 nm

107065_en_01 PHOENIX CONTACT 85

FL SD FLASH/MRM 2700270 1

FL NETWORK MANAGER BASIC 2702889 1

FL SFP FX 2891081 1

FL SFP FX SM 2891082 1

FL SFP FE WDM20-A 2702437 1

FL SWITCH 2000

Description (Fortsetzung) Order designation Order No. Pcs./Pkt.

Fast Ethernet SFP WDM module for transmission up to a maximum of 20 km
on a single fiber with a wavelength of 1550/1310 nm.

Fast Ethernet SFP WDM set for transmission up to a maximum of 20 km on a
single fiber with a wavelength of 1310/1550 nm

Gigabit SFP WDM module for transmission up to a maximum of 10 km on a
single fiber with a wavelength of 1310/1550 nm

Gigabit SFP WDM module for transmission up to a maximum of 10 km on a
single fiber with a wavelength of 1310/1550 nm

Gigabit SFP WDM set for transmission up to a maximum of 10 km on a single
fiber with a wavelength of 13101/1550 nm

The FL DIN RA is installed in a standard, 19-inch rack (EIA-310-D, IEC
60297-3-100) to allow DIN rail mounted equipment to be rack mounted

Network monitoring with HMI/SCADA systems FL SNMP OPC SERVER V3 2701139 1

PCB connector, plug, nominal current: 8 A, rated voltage (III/2): 160 V, num­ber of positions: 5, pitch: 3.81 mm, connection method: screw connection
with tension sleeve, color: gray, contact surface: tin

PCB connector, plug, nominal current: 8 A, rated voltage (III/2): 160 V, num­ber of positions: 5, pitch: 3.81 mm, connection method: screw connection
with tension sleeve, color: gray, contact surface: tin

PCB connector, plug, nominal current: 8 A, rated voltage (III/2): 160 V, num­ber of positions: 5, pitch: 3.81 mm, connection method: Push-in spring con­nection, color: gray, contact surface: tin

PCB connector, plug, nominal current: 8 A, rated voltage (III/2): 160 V, num­ber of positions: 5, pitch: 3.81 mm, connection method: Push-in spring con­nection, color: green, contact surface: tin

SNMP-based software in English, for detection and display of Ethernet net­works with a maximum of 64 network nodes

SNMP-based software in English, for detection and display of Ethernet net­works with a maximum of 256 network nodes

SNMP-based software in English, for detection and display of Ethernet net­works with a maximum of 512 network nodes

Fuse terminal block for cartridge fuse-link, cross section: 0.5 - 16 mm², AWG:
24 - 6, width: 12 mm, color: black

Lever-type fuse terminal block, black, for 5 x 20 mm cartridge fuse-links, with
LED for 24 V DC

Thermomagnetic circuit breaker, 1-pos., for DIN rail mounting, 2 A UT 6-TMC M 2A 0916605 6

Pre-assembled relay module with Push-in connection, consisting of: relay
base with ejector and power contact relay. Contact type: 1 changeover con­tact. Input voltage: 24 V DC

FO patch cable, multimode, preconfigured, 1.0 m long, LC-LC connector FL MM PATCH 1,0 LC-LC 2989158 1

FO patch cable, single mode, preconfigured, 1.0 m long, LC-LC connector FL SM PATCH 1,0 LC-LC 2989187 1

FO patch cable, multimode, preconfigured, 1.0 m long, LC-SC connector FL MM PATCH 1,0 LC-SC 2989161 1

FO patch cable, multimode, preconfigured, 1.0 m long, SC-SC connector FL MM PATCH 1,0 SC-SC 2901805 1

FO patch cable, multimode, preconfigured, 1.0 m long, SC-ST connector FL MM PATCH 1,0 SC-ST 2901809 1

FO patch cable, single mode, preconfigured, 1.0 m long, LC-SC connector FL SM PATCH 1,0 LC-SC 2989190 1

FO patch cable, single mode, preconfigured, 1.0 m long, SC-SC connector FL SM PATCH 1,0 SC-SC 2901829 1

FO patch cable, single mode, preconfigured, 1.0 m long, SC-ST connector FL SM PATCH 1,0 SC-ST 2901832 1

Patch cable, CAT6, pre-assembled, 1.0 m long FL CAT6 PATCH 1,0 2891385 10

Patch cable, CAT5, pre-assembled, 1.0 m long FL CAT5 PATCH 1,0 2832276 10

FL SFP FE WDM20-B 2702438 1

FL SFP FE WDM20-SET 2702439 1

FL SFP WDM10-A 2702440 1

FL SFP WDM10-B 2702441 1

FL SFP WDM10-SET 2702442 1

FL DIN RA 2891053 1

MCVW 1.5/ 5-ST-3.81 GY BD-GND 1715127

MCVW 1.5/ 5-ST-3.81 GY BD-D0 1715126

FK-MCP 1,5/ 5-ST-3,81 GY 1884005

FMC 1,5/ 5-ST-3,81 1745920

FL VIEW 64 2701472 1

FL VIEW 256 2701473 1

FL VIEW 512 2701474 1

UK 10-DREHSILED 24 (5X20) 3005138 50

UT 4-HESILED 24 (5X20) 3046090 50

RIF-0-RPT-24DC/21 2903370 1

HOTLINE:

If there are any problems that cannot be solved using this documentation, please call our
hotline:

86

PHOENIX CONTACT 107065_en_01

+ 49 5281 9-462888

Technical data and ordering data

107065_en_01 PHOENIX CONTACT 87

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A Appendix for document lists

A 1 List of figures

Section 1

Figure 1-1: Dimensions of the FL SWITCH 2000 ....................................................8

Figure 1-2: Elements of the devices ........................................................................9

Section 2

Figure 2-1: Snapping the device onto the DIN rail .................................................11

Figure 2-2: Removing the device .......................................................................... 12

Figure 2-3: Operating the device with one power supply (example) ......................12

Figure 2-4: Redundant operation with two power supplies (example) ................... 13

Figure 2-5: Connecting a relay to the digital alarm output .....................................13

Figure 2-6: Elements of the SFP modules .............................................................15

Figure 2-7: Inserting the SFP modules (example) ................................................. 15

Figure 2-8: Position of the SD card slot .................................................................16

Section 3

Section 4

Section 5

Figure 3-1: Settings for the BootP server ..............................................................20

Figure 3-2: BootP server .......................................................................................20

Figure 3-3: FL Network Manager with BootP/DHCP reservation list displayed .....21

Figure 3-4: “IP Address Request Listener” window ...............................................22

Figure 3-5: “Set IP Address” window with incorrect settings ................................. 23

Figure 3-6: “Assign IP Address” window ...............................................................23

Figure 5-1: Login window ...................................................................................... 27

Figure 5-2: Start page for web-based management (example) ............................. 28

Figure 5-3: “Help & Documentation” web page .....................................................29

Figure 5-4: “Device Status” web page ...................................................................30

Figure 5-5: “Technical Data” web page .................................................................30

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FL SWITCH 2000

Figure 5-6: “Local Diagnostics” web page .............................................................31

Figure 5-7: “Alarm & Events” web page ................................................................31

Figure 5-8: “Port Table” web page ........................................................................32

Figure 5-9: “MAC Address Table” web page .........................................................32

Figure 5-10: “System” web page .............................................................................33

Figure 5-11: “Firmware Update via HTTP” pop-up .................................................. 34

Figure 5-12: “Firmware Update via TFTP” pop-up ..................................................34

Figure 5-13: “Advanced Configuration” pop-up .......................................................36

Figure 5-14: “Advanced Configuration” pop-up .......................................................37

Figure 5-15: “Security Context” pop-up ...................................................................37

Figure 5-16: “Administrator Password” configuration area ......................................38

Figure 5-17: “Quick Setup” web page .....................................................................38

Figure 5-18: “Network” web page ............................................................................39

Figure 5-19: ACD status information on the “Device Status” page .......................... 40

Figure 5-20: “Service” web page .............................................................................40

Figure 5-21: “Port Configuration” web page ............................................................41

Figure 5-22: “Port Configuration Table” web page .................................................. 43

Figure 5-23: “VLAN Configuration” web page .........................................................43

Figure 5-24: “Multicast Filtering” web page ............................................................. 44

Figure 5-25: “Spanning-Tree Configuration” configuration area .............................. 44

Figure 5-26: “RSTP Port Configuration” web page ..................................................46

Figure 5-27: “RSTP Port Configuration Table” web page ........................................ 47

Figure 5-28: “Security” web page ............................................................................47

Figure 5-29: “DHCP Service” web page ..................................................................48

Figure 5-30: “DHCP Port Local Service” pop-up ..................................................... 49

Figure 5-31: “Local Events” web page ....................................................................50

Figure 5-32: “Quality of Service” web page ............................................................. 51

Figure 5-33: “RSTP Diagnostic” web page ..............................................................52

Figure 5-34: “MRP Diagnostic” web page ............................................................... 53

Figure 5-35: “Port Mirroring” web page ................................................................... 53

Figure 5-36: “Trap Manager” web page ..................................................................54

Figure 5-37: “Port Counter” web page ..................................................................... 55

Figure 5-38: “Port Utilization” web page .................................................................. 55

Figure 5-39: “SFP Diagnostics” web page ..............................................................56

Section 6

Figure 6-1: Configuration of a Telnet connection in PuTTY ...................................57

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PHOENIX CONTACT 107065_en_01

Section 7

Section 8

Section 9

Section 10

List of figures

Figure 6-2: Command terminal in PuTTY .............................................................. 57

Figure 6-3: Establishing a Telnet connection via Windows command prompt ...... 58

Figure 6-4: Command terminal in Windows command prompt .............................58

Figure 8-1: “Link Layer Discovery Protocol” web page ..........................................66

Figure 8-2: “LLDP Topology” web page ................................................................67

Figure 9-1: “Multicast Filtering” web page .............................................................69

Figure 9-2: “Current Multicast Groups” web page .................................................70

Figure 10-1: “VLAN Configuration” web page ......................................................... 71

Figure 10-2: “Static VLAN Configuration” web page ...............................................72

Figure 10-3: “VLAN Port configuration” web page ...................................................73

Figure 10-4: “VLAN Port Configuration Table” web page ........................................ 73

Figure 10-5: “Current VLANs” web page ................................................................. 74

Section 11

Appendix A

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Section 1

Section 2

Section 3

Section 4

Section 5

Section 6

B 2 List of tables

Table 1-1: .............................................................................................................. 9

Table 2-1: Pin assignment of RJ45 connectors ....................................................14

Table 3-1: Operating modes in Smart mode .........................................................18

Section 7

Section 8

Section 9

Section 10

Section 11

Appendix A

Table 6-1: Structure of CLI commands .................................................................58

Table 6-2: Structure of CLI commands .................................................................59

Table 8-1: Event table for LLDP............................................................................66

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C 3 Index

Numerics

24 V DC voltage .......................................................... 12

802.1w ........................................................................ 45

A

ACD status.................................................................. 40

Address Conflict Detection.......................................... 40

Address table...................................... 25, 75, 76, 78, 81

Admin Cost ................................................................. 47

Admin Edge ................................................................ 46

Admin Path Cost ......................................................... 46

Administrator password .............................................. 38

Agent .......................................................................... 64

Air pressure............................................... 75, 77, 79, 82

Alarm .......................................................................... 31

Alarm contact.............................................................. 50

Ambient compatibility................................ 75, 77, 79, 82

ASN1 SNMP objects................................................... 64

Auto Edge ................................................................... 46

Auto Query Ports......................................................... 70

Automation Profile....................................................... 38

B

BootP .......................................................................... 19

BootP request ............................................................. 19

BPDU packets............................................................. 26

Bridge Forward Delay ................................................. 45

Bridge Hello Time ....................................................... 45

Bridge Max Age .......................................................... 45

Bridge Priority ............................................................. 45

Designated Bridge ...................................................... 46

Designated Cost ......................................................... 46

Designated Root ......................................................... 46

Destination address .................................................... 25

Destination address field............................................. 25

Destination Port .......................................................... 54

Device status .............................................................. 30

DHCP Option 82 ......................................................... 48

DHCP Relay Agent ..................................................... 48

DHCP server............................................................... 18

DHCP Services........................................................... 48

Diagnostics ................................................................. 10

DIN rail........................................................................ 11

dot1dBridge ................................................................ 63

E

Egress......................................................................... 54

etherMIB ..................................................................... 63

Events......................................................................... 31

Extension BUQ ........................................................... 69

Extension FUQ............................................................ 69

F

Factory settings........................................................... 17

Fast Ring Detection .................................................... 45

Firmware Update ........................................................ 33

FL Managed Infrastructure MIB .................................. 63

Forward Delay............................................................. 45

Fragments................................................................... 25

Functional earth grounding ......................................... 14

C

Class of Service .......................................................... 26

Clear AQP................................................................... 70

CoS............................................................................. 26

CRC error.................................................................... 25

D

Default IP address....................................................... 18

Default Priority............................................................. 42

Degree of protection ................................. 75, 77, 79, 82

Delivery state .............................................................. 17

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G

Grounding................................................................... 14

H

Hello Time................................................................... 45

Housing dimensions ................................. 75, 77, 78, 82

Humidity.................................................... 75, 77, 79, 82

I

IEEE 802.1D ............................................................... 26

ifMIB............................................................................ 63

IGMP Query Version................................................... 69

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IGMP Snooping........................................................... 69

Ingress ........................................................................ 54

IP configuration ........................................................... 17

IP MIB ......................................................................... 63

IPAssign.exe............................................................... 21

L

Learning addresses .................................................... 25

Link Monitoring............................................................ 42

List of Static VLANs .................................................... 72

LLDP........................................................................... 41

lldpMIB........................................................................ 63

Load distribution.......................................................... 13

Local Events ............................................................... 50

M

MAC Address Table.................................................... 32

Management Information Base............................. 63, 64

Max Age...................................................................... 45

MIB ............................................................................. 63

Mirroring................................................................ 43, 54

Monitored link ............................................................. 50

Mounting..................................................................... 11

Mounting position...................................... 75, 77, 79, 82

Multi-address function................................................. 25

Multicast/broadcast address....................................... 25

N

Network Redundancy.................................................. 44

O

Operating Edge........................................................... 46

Operating modes ........................................................ 18

Operating Path Cost.................................................... 46

Operating temperature.............................. 75, 77, 79, 82

Option 82 .................................................................... 48

P

Packet processing sequence ...................................... 26

Password .............................................................. 17, 38

Path Cost .................................................................... 46

pBridgeMIB................................................................. 63

Port Counter................................................................ 55

Port ID......................................................................... 46

Port Mirroring ........................................................ 43, 54

Port Table ................................................................... 31

Prioritization ................................................................ 26

Priority......................................................................... 26

Priority queues ............................................................ 26

Processing queue ....................................................... 26

Processing rules ......................................................... 26

Protection class ........................................ 75, 77, 79, 82

Q

qBridgeMIB................................................................. 63

QoS............................................................................. 26

Quality of Service........................................................ 26

Query Interval ............................................................. 69

Queue......................................................................... 26

Quick Setup ................................................................ 38

R

Receive queue............................................................ 26

Redundancy ............................................................... 44

Redundant operation .................................................. 13

Relay Agent ................................................................ 48

Removal...................................................................... 11

Reset .......................................................................... 33

RFC1213 MIB ............................................................. 63

Ripple ....................................................... 75, 77, 79, 82

RJ45 Ethernet connector ............................................ 14

rmon............................................................................ 63

Root ............................................................................ 46

Root Cost.................................................................... 52

Root Port..................................................................... 52

RSTP .......................................................................... 44

rstpMIB ....................................................................... 63

S

SFP modules .............................................................. 15

SFP slot ...................................................................... 14

Simple Network Management............................... 57, 63

Smart mode ................................................................ 17

SNMP ......................................................................... 63

SNMP interface........................................................... 63

snmpFrameworkMIB................................................... 63

snmpMIB .................................................................... 63

Snoop Aging Time ...................................................... 69

Source and destination addresses.............................. 25

Static Query Ports....................................................... 70

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Storage temperature ................................. 75, 77, 79, 82

Store and forward mode.............................................. 25

Switch principle......................................... 75, 76, 78, 81

T

Tagged........................................................................ 71

Topology Change........................................................ 52

Traffic classes............................................................. 26

Transparent................................................................. 71

Trap ............................................................................ 63

Trap Manager ............................................................. 54

Tree structure of the MIB............................................. 64

U

User name .................................................................. 17

Utilization .................................................................... 55

V

VLAN/priority tag......................................................... 26

Index

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