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TechnicalInformation

Network Switch for Vnet/IP

TI 30A10A30-01E

TI 30A10A30-01E©Copyright Sep. 2011 (YK)8th Edition July 2020 (YK)

Yokogawa Electric Corporation2-9-32, Nakacho, Musashino-shi, Tokyo, 180-8750 Japan

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TI 30A10A30-01E

IntroductionYokogawa has started providing reliable industrial network switches for Vnet/IP based on a new policy of “Yokogawa Certified Buyout.” These network switches, categorized as “Recommended products,” are supplied with the default configurations customized for Vnet/IP and they are referred to as the “Recommended Switch” in this document. The Recommended Switches consist of two types of switches; one is “Managed” and the other is “Unmanaged.” Whenever the word “Recommended Switche(s)” is used, both types are referred to in this document.Please use these Recommended Switches to establish a Vnet/IP network. All the Recommended Switches are dedicated for Vnet/IP. Refrain from using them as Ethernet switches for non-Vnet/IP network such as an information bus.This document is provided for those who have basic understanding of the Vnet/IP systems, and contains the functions and specifications of the Recommended Switches. Read this document thoroughly before configuring the Vnet/IP network and refer to the user’s manual attached to the devices to obtain detailed information as well as to use them safely.For details about Vnet/IP and how to set up a network, please refer to the following related document.

Related documentTI 30A10A05-01E Vnet/IP Network Construction Guide

Drawing ConventionsSome of the drawings may be partially emphasized, simplified, or omitted, for the convenience of descriptions.

Symbols in this BookThis book has the following symbols.

WARNING Indicates precautions to avoid a danger that may lead to death or severe injury.

CAUTION Indicates precautions to avoid a danger that may lead to minor or moderate injury or

property damage.

IMPORTANT Identifies important information required to understand the operations or functions.

TIP Identifies additional information.

SEE ALSO

Identifies a source to be referred to.

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TI 30A10A30-01EAll Rights Reserved Copyright © 2010, Yokogawa Electric Corporation

Trademark AcknowledgmentsThe names of corporations, organizations, products and logos herein are either registered trademarks or trademarks of Yokogawa Electric Corporation and their respective holders.

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Network Switch for Vnet/IP

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CONTENTS1. Overview .................................................................................................... 1-1

1.1 Recommended Switch Models ........................................................................1-31.1.1 Managed Switches ............................................................................ 1-31.1.2 Unmanaged Switch ............................................................................ 1-41.1.3 How to use Unmanaged Switch ........................................................1-5

1.2 SFP Module ........................................................................................................1-71.3 Auto-ConfigurationAdapter(ACA) .................................................................1-81.4 Terminal Cable ...................................................................................................1-8

2. HardwareSpecifications ........................................................................ 2-12.1 RS40 Family .......................................................................................................2-1

2.1.1 Name of Each Part and Descriptions.................................................2-12.1.2 Mounting ............................................................................................2-32.1.3 External Dimensions .......................................................................... 2-3

2.2 MACH104 Family ..............................................................................................2-42.2.1 Name of Each Part and Descriptions.................................................2-42.2.2 Mounting ............................................................................................2-62.2.3 External Dimensions .......................................................................... 2-6

2.3 MAR1040 Family ...............................................................................................2-72.3.1 Name of Each Part and Descriptions.................................................2-72.3.2 Mounting .......................................................................................... 2-112.3.3 External Dimensions ........................................................................ 2-11

2.4 SPIDERIIFamily(UnmanagedSwitch) ........................................................2-122.4.1 Name of Each Part and Descriptions...............................................2-122.4.2 Mounting ..........................................................................................2-142.4.3 External Dimensions ........................................................................2-14

2.5 Hardware Information .....................................................................................2-152.5.1 Hardware Specification List .............................................................2-152.5.2 Wiring to Terminal Block ..................................................................2-16

3. ConfigurationBackup/Restore ............................................................... 3-13.1 ConfigurationFileArchitecture .......................................................................3-13.2 ConfigurationBackuptoACA .........................................................................3-23.3 RestoreconfigurationfromACA .....................................................................3-2

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4. ConfigurationSetup ................................................................................. 4-14.1 Preparationforsetting .....................................................................................4-14.2 SummaryofCommandLineInterface(CLI) ..................................................4-34.3 CLI command ....................................................................................................4-5

4.3.1 Confirm configuration (show running-config) .................................... 4-54.3.2 Confirm system information (show sysinfo) ....................................... 4-64.3.3 Confirm port status (show port all) ..................................................... 4-84.3.4 Restore to default (clear config factory) ...........................................4-104.3.5 Save/Backup configuration (copy) ...................................................4-104.3.6 Port Disable for unused port (shutdown) ......................................... 4-114.3.7 Set management IP address (network parms) ................................ 4-114.3.8 Cascaded domain connection by L3SW .........................................4-124.3.9 Configuring a ring network ...............................................................4-16

Appendix1.Defaultconfiguration ............................................................App.1-1Appendix2.VLAN-basedrouting ..............................................................App.2-1Appendix3.ReuseofExistingMultimodeOpticalFiberCable .............App.3-1Appendix4.PrecautionsforLong-haulOpticalFiberConnection .......App.4-1

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1. OverviewARecommendedSwitchisanetworkcomponentinaVnet/IPsystemtoconnectVnet/IPstations. This section describes features of the Recommended Switches.

Features of Recommended Switches• Yokogawa certified Buyout equipment for Vnet/IP

• Stable supply of the tested models

• Customized default configuration for Vnet/IP

• Service by Yokogawa engineer (*1)*1: Yokogawa service engineers support the Recommended Switch in case it is used for Vnet/IP. Use it only for Vnet/IP, as other

network connection is not guaranteed or supported.

Categories of Recommended SwitchesTwo types of the recommended Switches are available.

• Managed Switch A managed switch has configuration function and self-diagnostic function so that it can be placed anywhere on the Vnet/IP network.

• Unmanaged Switch An unmanaged switch is not equipped with either configuration function or self-diagnostic function so that it can be placed only on the edge of the Vnet/IP network. Please refer to “1.1.3 How to use Unmanaged Switch” for more details.

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ModelsandcustomizeddefaultconfigurationsofRecommendedSwitches

Both Layer2 switch (L2SW) and Layer3 switch (L3SW) models are lined up as the Recommended Switches. L2SW is a device to connect stations and modules within a Vnet/IP domain.L3SW is used for connecting Vnet/IP domains. Several models are available by input power type and port variation type. The Recommended Switches are customized with the default configuration (*2) to be dedicatedly used in Vnet/IP networks. For any of a typical Vnet/IP network, the Recommended Switches require no initial settings. (*1)Note: In the standard Vnet/IP network, the Vnet/IP network switches use the default setting, and only Vnet/IP stations and SNTP server

are connected. If other devices are connected or the configuration settings of the Vnet/IP network switches are changed from the default, on site confirmation is required for the influence of them in advance.

*1: The default parameters of the Recommended Switch are shown in Appendix 1. Recommended L3SW has two configuration models for BUS1 or BUS2. Recommended L2SW has an identical configuration

model for BUS1 and BUS2.*2: The default configuration is available only for the managed switches. The Unmanaged Switch does not have configuration parameters.

Accessories for Recommended SwitchesFollowing accessories are provided as optional for the Recommended Switches.

• SFP module An SFP module is an optical transceiver to connect the Recommended Switches with an optical fiber.

• Auto Configuration Adapter (ACA) ACA is a USB memory for the Recommended Switches for saving/loading configurations when changing the default configuration.

• Terminal cable for configuration A terminal cable is for changing the configuration or checking the device status of the Recommended Switch.

Note: An AC power cable for local regions is not included in the Recommended Switch. An applicable AC power cable has to be prepared locally.

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1.1 Recommended Switch Models1.1.1 Managed Switches

The list of Managed Switches is shown as below.

Table List of Managed Switches

Layer Vnet/IPBUSMS-Code

(Vendermodelname)ProductFamily

Ports Power Supply OperatingTemp.(°C) Mounting

RJ-45 SFP P1 P2

L2SW BUS1BUS2

GRVSW-660FA(RS40-0009CCCCEDBPYY) RS40 9 (4) DC DC -40 to +70 DIN Rail

GRVSW-663FA(MACH104-20TX-F)

MACH104 24 (4)AC –

0 to +50 19” Rack(1RU)GRVSW-664FA(MACH104-20TX-FR) AC AC

GRVSW-665FA(MAR1040-4C4C4C4C9999EM9HPYY)

MAR1040

16 (16)

AC –

-40 to +70 19” Rack (1RU)GRVSW-666FA(MAR1040-4C4C4C4C9999EMMHPYY)

AC AC

GRVSW-667FA(MAR1040-4C4C4C4C9999ELLHPYY)

DC DC

L3SW

BUS1

GRVSW-668FA(MAR1040-4C4C4C4C9999EM9HRY1)

16 (16)

AC –

-40 to +70 19” Rack (1RU)GRVSW-669FA(MAR1040-4C4C4C4C9999EMMHRY1)

AC AC

GRVSW-670FA(MAR1040-4C4C4C4C9999ELLHRY1)

DC DC

BUS2

GRVSW-671FA(MAR1040-4C4C4C4C9999EM9HRY2)

16 (16)

AC –

-40 to +70 19” Rack (1RU)GRVSW-672FA(MAR1040-4C4C4C4C9999EMMHRY2)

AC AC

GRVSW-673FA(MAR1040-4C4C4C4C9999ELLHRY2)

DC DC

Note: Each SFP port is for dual purpose (RJ-45/SFP) combo port. When an SFP module is installed in a combo port, the port automatically serves as an SFP interface. (Combo port works as RJ-

45 or SFP interface exclusively.) The Recommended Switches work in the same configuration for RJ-45 or SFP interface.Note: An AC power cable is not included. Please prepare AC power cable allowed to be used in the local region.

Models of the Managed Switches are categorized in three product families of which images are as shown below.

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RS40 Family MACH104 Family MAR1040 Family

Figure DeviceimagesbytheproductfamilyoftheManagedSwitchesFeb. 29, 2016-00

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1.1.2 UnmanagedSwitchThe model of the Unmanaged Switch is as shown below.

Table List of Managed Switches

Layer Vnet/IPBUS MS-Code(Vendermodelname)Product Family

Ports PowerSupply OperatingTemp.(°C) MountingRJ-45 SFP P1 P2

L2SW BUS1, BUS2GR2SW-699FA(SPIDER II Giga 5T/2S EEC)

SPIDER II 5 2 DC — -40 to +70 DIN Rail

Note: The SFP port is not for dual-purpose. Ports No. 1 to 5 are for RJ-45 ports. Ports No. 6 and 7 are for SFP ports

The product image of the Unmanaged Switch is as shown below.

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Figure DeviceimageoftheUnmanagedSwitch

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1.1.3 HowtouseUnmanagedSwitchIn order to simplify the drawings, BUS1 and BUS2 are drawn in a single line.

ConceptAn Unmanaged Switch is not equipped with either configuration function or self-diagnostic function so that it can be placed only on the edge of the Vnet/IP network.

Edge

Vnet/IP network

Edge

HIS/ENG/SENG

FCS/SCS

F010104.ai

Figure Vnet/IP network architecture

The edge of the Vnet/IP network is a point to connect Vnet/IP stations and a Vnet/IP network. When an Unmanaged Switch place on the edge of a network fails, the failed part of the network can be inferred by using Network Status Display Dialog Box in HIS. Do not place an Unmanaged Switch on a point other than at an edge of a network because analysis of network failure cannot be performed.

ApplicablenetworkstructureA local connection or an Edge-point connection is applicable to Unmanaged Switches.

F010102.ai

HIS HIS

GR2SWUnmanaged Switch

other switch (*1)

FCSFCSENG/HIS

GR2SWUnmanaged Switch Edge point

One connection to other switch

ENG/HIS

ENG/HIS

No switch is connected to GR2SW. A switch of other kind is connected to GR2SW.

*1: Managed Switch or Unmanaged Switch

FigureApplicablenetworkstructure

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NetworkstructurenotapplicableOther than the edge-point or local connection of the network is not applicable.

F010105.ai

HIS HIS

other switch (*1)

FCS

HIS HIS

Not Edge point GR2SWUnmanaged Switch

Two connections to other switches

ENG/HIS

ENG/HIS ENG/HIS

other switch (*1)

Connecting to two (or more) switches is not allowed.

1: Managed Switch or Unmanaged Switch

FigureNotapplicablenetworkstructure

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1.2 SFP ModuleThe SFP module is an optical transceiver to be installed in an SFP port of a Recommended Switch when connecting to another Switch with an optical fiber cable. SFP modules are hot-pluggable.The following models are offered for Recommended Switches. Select SFP modules from this list.

Table SFP Modules for Recommended Switches

MS-Code(Vendermodelname) Interface(*1)

Nominal Wavelength

Connectable FiberType

(*2)Link

Budget(*3)Max.

Transmission Distance(*4)

OperatingTemperature

GRVSFP-675FA(M-SFP-LX/LC) 1000BASE-LX 1,310 nm

Single Mode 0 to 8 dB 20 km0 to 60°C

Multimode 0 to 8 dB 0.55 km

GRVSFP-676FA(M-SFP-LX/LC EEC) 1000BASE-LX 1,310 nm

Single Mode 0 to 8 dB 20 km–40 to +85°C

Multimode 0 to 8 dB 0.55 kmGRVSFP-696FA(M-SFP-LH/LC) 1000BASE-LH 1,550 nm Single mode 6 to 20 dB 80 km

0 to 60°CGRVSFP-697FA(M-SFP-LH+/LC) 1000BASE-LH+ 1,550 nm Single mode 13 to 30 dB 120 km

GRVSFP-674FA(M-FAST SFP-MM/LC) 100BASE-FX 1,310 nm Multimode 0 to 5 dB 4 km 0 to 60°C

*1: 1000BASE-LH and 1000BASE-LH+ are vendor-specific interfaces. “-LH” stands for “Long-Haul”, which is a feature of an optical fiber connection.*2: For Vnet/IP connections, single-mode optical fiber cables are recommended. When installing optical fiber cables for the first time,

use single-mode optical fiber cables that are compliant with the optical fiber category of IEC 60793-2-50 B1.1, ITU-T G652.B, JIS C 6835 SSMA, or higher grade. When reusing existing multimode optical fiber cables, refer to Appendix 3, “Reuse of Existing Multimode Optical Fiber Cable.”

*3: The total attenuation value, including loss of splicing and connector connections, at the nominal wavelength must be in the range of the link budget.

*4: The maximum transmission distance depends on the performance of the fiber cables. For long-haul fiber connection exceeding 40 km in a domain, refer to Appendix 4, “Precautions for Long-haul Optical Fiber Connection.”

The appearance of the SFP module is shown below.

F010201.ai

Lock release lever

Figure SFP Module

To install an SFP module to an SFP port of a Recommended Switch, insert it into the port firmly until it is locked. To detach the SFP module from the port, unplug the fiber cable, and then tilt the lock release lever (see the figure above) down to the front and pull it to remove it.

The SFP module has an LC optical fiber connector. Carefully check the connector type of the fiber cable to be used.

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1.3 Auto-ConfigurationAdapter(ACA)ACA (MS-Code: GRVACA-677FA) is a USB memory for the Recommended Switch for saving/loading the configuration to change from the default configuration.If ACA is plugged-in, the Recommended Switch starts loading configuration automatically from ACA during startup.The configuration file can be backed-up on a file server, as the ACA is regarded as a USB memory when connected to a computer.ACA image is as shown below.

F010301.ai

Figure ACA image

For more information, see section 3.

1.4 Terminal CableA terminal cable (MS-Code: GRVCAB-678FA) is required for changing the configuration.The terminal cable connects COM port of a computer to V.24 port of the Recommended Switch. Command Line Interface (CLI) is available through the serial interface connection with VT100 compatible terminal software.The Terminal Cable image is as shown below.

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Figure Terminal Cable image

For more information, see section 4.

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2. HardwareSpecifications

2.1 RS40 Family

9ports,DINrailmountingmodelGRVSW-660FA (Vender model name: RS40-0009CCCCEDBPYY): L2SW (DC Input Redundant Power Model)

2.1.1 NameofEachPartandDescriptions

F020101.ai

Power Input/FAULT output

Device status LEDs

DIP switch

USB interface

V.24 interface

Port status LED

Port 8

Port 1

Port 9

RJ-45 portGrounding Screw

SFP port

Figure NameofEachPart(RS40Family)

Powerinput/FAULToutputA 6-pin plug-in terminal block is installed to this connecter. The terminal pin functions are as shown below.

Table TerminalPinFunction(RS40Family)

Pin Function1 P1 DC power input (+)2 FAULT output3 P1 DC power input (-)4 P2 DC power input (-)5 FAULT output6 P2 DC power input (+)

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1 2 3 4 5 6

Ensure to connect 24 V DC power cable with the correct polarity. This family of switches has redundant power supplies. Use both P1 and P2 power inputs unless otherwise the power fail alarm will be set off on the device. In case the device detects status error, two FAULT output pins will become open. The device status error is triggered by power failure in the default configuration.For more information about wiring to the terminal block, see section 2.5.2.

Figure Terminal Pins


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Device status LEDsFour device status LED functions are as shown below.

Table DevicestatusLEDfunction(RS40Family)

LED name Reaction Device status

P (Power)ON (Green) Normal operationON (Yellow) P1 or P2 power failOFF All power fail

FAULTON (Red) Detect device status error (*1)OFF Normal operation

RM (Ring Manager) (*2)

ON (Green) Ring normalON (Yellow) Ring errorOFF Ring function not activeFlash During ACA accessing

Stand byOFF Normal (Stand-by mode not enabled)Flash During ACA accessing

*1: FAULT LED glows in red when FAULT output pins become open. (The default status as delivered from the factory.)*2: These LEDs become functional when using ring network technology supported by the network switch vender.

DIP switchThis DIP switch defines HIPER-Ring operating priority. Refrain from changing this DIP switch setting from the default. The default setting is “RM = ON” and “Stand by = ON.”

USBinterfaceAn ACA is connected with the Recommended Switch via USB interface.

V.24 interfaceV.24 interface is used to connect to a computer with terminal cable.

RJ-45portRJ-45 port connects Vnet/IP stations or equipment with UTP cable. Ports 1 to 4 are for dual purpose (RJ45/SFP) combo port. The combo port will select SFP interface automatically when an SFP module is installed.

SFPportSFP port has a plug-in slot for an SFP module. Plug an SFP module into the slot to use Vnet/IP optical connection. The SFP port is for dual purpose (RJ45/SFP) combo port. The combo port will select SFP interface automatically when an SFP module is installed.

Port status LEDPort status LED glows in green during linkup and it flashes while receiving data.

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Shielding groundThe front panel of the device is grounded via this ground screw. For the ground conductor, use a cable with a cross section of at least 1.0 mm2.

2.1.2 MountingRS40 family device of the Recommended Switch is designed for mounting onto a 35 mm DIN rail as shown in the figure below. Attach the device’s upper snap-in guide into the DIN rail and press it down against the DIN rail until it snaps into place.

F020102.ai

Figure MountingontheDINrail(RS40Family)

To take the RS40 family device off the DIN rail, insert a screwdriver horizontally under the housing into the locking slide, pull it (without tipping the screw driver) downwards and lift the device upwards.

2.1.3 ExternalDimensions

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105.313.73110.0

3.5

130.0

Unit: mm

Figure ExternalDimensions(RS40Family)

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2.2 MACH104 Family

24ports,19-inchrackmountingmodelGRVSW-663FA (Vender model name: MACH104-20TX-F): L2SW (AC Input Single Power Model) GRVSW-664FA (Vender model name: MACH104-20TX-FR): L2SW (AC Input Redundant Power Model)


F020201.ai

V.24 interfaceUSB interface

FAULT output

Device status LEDs

SFP Port

RJ-45 Port

Port status LEDs

Power input (P1) Power input (P2)

Figure NameofEachPart(MACH104Family)

Powerinput(Inletsocket)For AC power line input, MACH104 family of the Recommended Switch has one or two inlet sockets conforming to EN60320 C14 standard. The redundant power unit model GRVSW-664FA (Vender model name: MACH104-20TX-FR) has two inlet sockets for P1 and P2 AC power input.An AC power cable is not included in the MACH104 family. Please prepare AC power cable allowed to be used in the local region. (The AC inlet socket fits to the connector conforming to IEC60320 C13 standard.)For a redundant power unit model, use both P1 and P2 power inputs unless otherwise a power fail alarm will be detected on this device.

FAULToutputFAULT output has two contact pins. The FAULT output pins become open when the device detects status error. The device status error is triggered by power failure on the default configuration. For more information about wiring to the terminal block, see section 2.5.2.

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Table DevicestatusLEDfunction(MACH104Family)


P (Power)ON (Green) Normal operation (*1)ON (Yellow) P1 or P2 power failOFF All power fail




Sb (Stand by)OFF Normal (Stand-by mode not enabled)Flash During ACA accessing

*1: As for a single power model, the Power LED glows in green (Normal) or OFF (Fail).*2: FAULT LED glows in red when FAULT output pins become open. (The default status as delivered from the factory.)*3: These LEDs become functional when using ring network technology supported by the network switch vender.


V.24 interfaceV.24 interface connects a computer with a terminal cable.

RJ-45portRJ-45 port connects Vnet/IP stations or equipment with UTP cable. Ports 5 to 8 are for dual purpose (RJ45/SFP) combo port. The combo port will select SFP interface automatically when an SFP module is installed.

SFPportSFP port has a plug-in slot for an SFP module. Plug the SFP module into the slot to use Vnet/IP optical connection. The SFP port is for dual purpose (RJ45/SFP) combo port. The combo port selects SFP interface automatically when the SFP module is installed.

Port status LEDEach port has 2-port status LEDs. The LED on the left indicates link status. It glows in green during linkup. The LED on the right indicates data access. It flashes in orange while receiving/sending data.

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2.2.2 MountingMACH104 family device of the Recommended Switch is designed for mounting on a 19-inch rack cabinet.Measure the 19-inch rack’s depth to let a main cable and any power supply cables to fit from the back, and the data cables from the front. Install the sliding/mounting rails in the 19-inch switch cabinet as instructed by the manufacturer, and make sure the device is resting on both rails to protect the device from vibrating.MACH104 family device of the Recommended Switch is designed without a fan; however, it requires sufficient ventilation. Provide a fan for the 19-inch rack, if necessary.In order to prevent wrong network cable connections to the operating system, the cabinet must be protected by a security lock key.


F020202.ai

19.3 444.0 19.3

3.3 462.6 3.3

342.0

43.9 31.75

Unit: mm

Figure ExternalDimensions(MACH104Family)

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2.3 MAR1040 Family

16comboports,19-inchrackmountingmodel

L2SW modelsGRVSW-665FA (Vender model name: MAR1040-4C4C4C4C9999EM9HPYY) : L2SW (AC Input Single Power Model)GRVSW-666FA (Vender model name: MAR1040-4C4C4C4C9999EMMHPYY) : L2SW (AC Input Redundant Power Model)GRVSW-667FA (Vender model name: MAR1040-4C4C4C4C9999ELLHPYY) : L2SW (DC Input Redundant Power Model)

L3SWmodelsforBUS1GRVSW-668FA (Vender model name: MAR1040-4C4C4C4C9999EM9HRY1) : L2SW (AC Input Single Power Model)GRVSW-669FA (Vender model name: MAR1040-4C4C4C4C9999EMMHRY1) : L2SW (AC Input Redundant Power Model)GRVSW-670FA (Vender model name: MAR1040-4C4C4C4C9999ELLHRY1) : L2SW (DC Input Redundant Power Model)

L3SWmodelsforBUS2GRVSW-671FA (Vender model name: MAR1040-4C4C4C4C9999EM9HRY2) : L2SW (AC Input Single Power Model)GRVSW-672FA (Vender model name: MAR1040-4C4C4C4C9999EMMHRY2) : L2SW (AC Input Redundant Power Model)GRVSW-673FA (Vender model name: MAR1040-4C4C4C4C9999ELLHRY2) : L2SW (DC Input Redundant Power Model)

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F020301.ai

15

16

V.24 interfaceUSB interface

Device status LEDs

SFP port

Port status LEDs

Port 1Port 3

Port 5Port 7

Port 9Port 11

Port 13Port 15

Port 2Port 4

Port 6Port 8

Port 10Port 12

Port 14Port 16

RJ-45 port

-1.

.

FAULT output 1

Power input (P1) Power input (P2)

FAULT output 2

Figure NameofEachPart(MAR1040Family)

Powerinput(3pinterminalblock)The redundant power unit models have two terminal blocks for P1 and P2 power input. MAR1040 family is powered by the terminal block regardless of DC or AC. The pin function is as shown below.

Table PowerInputPinFunction(MAR1040Family)

ACpowerinput DCpowerinputPin Connection Pin Connection

Protective ground Protective ground

-/N AC power input (Neutral) - DC power input (-)

+/L AC power input(Phase supply voltage) + DC power input (+)

For more information about wiring to the terminal block, see section 2.5.2.AC power cable is not included in the MAR1040 family. Please prepare AC power cable allowed to be used in the local regions.For redundant power unit model, use both P1 and P2 power inputs unless otherwise the power fail alarm will be detected on this device.

FAULToutputFAULT output 1 and 2 have two contact pins respectively. Each FAULT output becomes open when the device status error is detected based on the conditions configured for each output. For FAULT output 1, the device status error is triggered by power failure by the default configuration. For FAULT output 2, the device status error condition is not defined by the default configuration.For more information about wiring to the terminal block, see section 2.5.2.

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Table DevicestatusLEDfunction(MAR1040Family)


P (Power)ON (Green) Normal operation (*1)ON (Yellow) P1 or P2 power failOFF All power fail




Sb (Stand by)OFF Normal (Stand-by mode not enabled)Flash During ACA accessing

*1: As for a single power model, the Power LED glows in green (Normal) or OFF (Fail).*2: FAULT LED glows in red when FAULT output pins become open. (The default status as delivered from the factory.)*3: These LEDs become functional when using ring network technology supported by the network switch vender.


V.24 interfaceV.24 interface connects a computer with a terminal cable.

RJ-45portRJ-45 port connects Vnet/IP stations or equipment with UTP cable. Each port (Port 1 to 16) is dual purpose (RJ45/SFP) combo port.The combo port will select SFP interface automatically when the SFP module is installed.As for L3SW, each port has been assigned to an appropriate IP address by default for easy Vnet/IP inter-domain connection. Each of the L3SW’s port is used for a connection to each of the Vnet/IP domain respectively. In case of Vnet/IP communication between domain 1 and 2, connect a port of each L2SW in Vnet/IP domain 1 and domain 2 to port 1 and port 2 of L3SW.

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SFPportSFP port has a plug-in slot for an SFP module. Plug the SFP module into the slot to use Vnet/IP optical connection. The SFP port is for dual purpose (RJ45/SFP) combo port. The combo port will select SFP interface automatically when the SFP module is installed.

Port status LEDEach port has 2-port status LEDs. The LED on the left indicates link status. It glows in green during linkup. The LED on the right indicates data access. It flashes in orange while receiving/sending data.

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2.3.2 MountingMAR1040 family device of the Recommended Switch is designed for mounting on a 19-inch rack cabinet.Measure the 19-inch rack’s depth to let a main cable and any power supply cables to fit from the back, and the data cables from the front. Install the sliding/mounting rails in the 19-inch switch cabinet as instructed by the manufacturer, and make sure the device is resting on both rails to protect the device from vibrating.MAR1040 family device of the Recommended Switch is designed without a fan; however, it requires sufficient ventilation. Provide a fan for the 19-inch rack, if necessary.In order to prevent wrong network cable connections to the operating system, the cabinet must be protected by a security lock key.


F020302.ai

HIRSCHMANNMAR1040

V.24USB

1 3

2 4

5 7

6 8

9 11

10 12

13 15

14 16

YOKOGAWAVnet/IP

!FAULT

RMSb

P

R1R2

19.3 444.0 19.3

3.3 462.6 3.3

31.75

342.0

43.9

Unit: mm

Figure ExternalDimensions(MAR1040Family)

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2.4 SPIDERIIFamily(UnmanagedSwitch)

7ports,DINrailmountingmodelGR2SW-699FA (Vendor model name: SPIDER II Giga 5T/2S EEC): L2SW (DC Input Single Power Model)


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Power input and ground

Device status LED

Port1

Port5

Port6

Port7

RJ-45 port

SFP port

SFP port status LEDs

RJ-45 port status LEDs

(Port6) (Port7)

Figure NameofEachPart(SPIDERIIFamily)

PowerinputandgroundA 3-pin plug-in terminal block is installed to this connecter. The list of the terminal pin functions is shown below.

Table TerminalPinFunction(SPIDERIIFamily)

Pin Function1 DC power input(+)2 DC power input(-)3 Ground connection

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1 pin 2 pin 3 pin

Figure TerminalPinforPowerinputandground

Note: The device is grounded by the 3-pin terminal block. Ensure to connect 24 V DC power cable with the correct polarity. For more information about wiring to the terminal block, see section 2.5.2.

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Device status LEDThe device status LED functions are as shown below.

Table DeviceStatusLEDFunction(SPIDERIIFamily)

LED name Reaction Device Status

P (Power)ON (Green) Normal OperationOFF All power fail

SFPportstatusLEDsPort status LEDs for F/O ports on the device’s top edge of the front display port-related information.

Table SFPportstatusLEDfunction(SPIDERIIFamily)

LED Name Reaction MeaningLS/DA (*1) On (Green) Valid Connection

Flashing (Green) Data TrafficOFF No valid connection

*1: Link Status/Data Access

RJ-45portstatusLEDsThe green and yellow LEDs at the individual port display port-related information.

Table SFPportstatusLEDfunction(SPIDERIIFamily)

LED name Reaction MeaningLS/DA (*1) ON (Green) Valid connection

Flashing (Green) Data trafficOFF No valid connection

SP (*2) OFF No valid connectionFlashing one time a period (Yellow) 10 Mbit/s connectionFlashing 2 times a period (Yellow) 100 Mbit/s connectionFlashing 3 times a period (Yellow) 1000 Mbits/s connections

*1: Link Status/Data Access*2: Link Speed

SFPportSFP port has a plug-in slot for an SFP module.Plug the SFP module into the slot to use Vnet/IP optical connection.

RJ-45portRJ-45 port connects Vnet/IP stations or other equipment with UTP cable.

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2.4.2 MountingSPIDER II Family device of the Recommended Switch is designed for mounting onto a 35 mm DIN rail, as shown below. Attach the the device’s upper snap-in guide into the DIN rail and press it down against the DIN rail until it snaps into place.

F020403.ai

Figure MountingontheDINrail(SPIDERIIFamily)

To take the SPIDER II family device off the DIN rail, insert a screwdriver horizontally under the housing into the locking slide, pull it (without tipping the screw driver) downwards and lift the device upwards.


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9 .5

13.8

73.2

52.3

50.5

(14 )

(15 )

(80 )

154

unit: mm

12135

FigureExternalDimensions(SPIDERIIFamily)

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2.5 Hardware Information2.5.1 HardwareSpecificationList

Hardware specifications of the Recommended Switches are as shown below.Table HardwareSpecificationsList

ITEM

Managed Switches UnmanagedSwitch

RS40 Family MACH104 Family MAR1040 Family SPIDER II Family

DCInputRedundant Power

Model

ACInputSingle PowerModel

ACInputRedundant

Power Model

ACInputSingle PowerModel

ACInputRedundant

Power Model

DCInputRedundant

Power Model

DCInputSingle

Power Model

Dimensions,weightMounting DIN Rail 19 inch rack 19 inch rack DIN railDimensions W x H x D (mm) 110 x 131 x 111 448 x 44 x 345 448 x 44 x 345

35 x 154 x 121

Weight 600 g 4.2 kg 4.4 kg 4.2 kg 4. 4 kg 270 g

Power requirementsNominal voltage 12 to 48 V DC

100 to 240 V AC (50 to 60 Hz)

100 to 240 V AC ( 50 to 60 Hz )

24 to 48 V DC -

Operating voltage range 9.6 to 60 V DC

90 to 265 V AC (47 to 63 Hz)

90 to 265 V AC (47 to 63 Hz )

18 to 60 V DC

9.6 to 32.0 V DC

Power consumption 20 W (max) 35 W (max) 26 W (max)

6.6 W(max. at 24 V)

Current - 0.4 to 0.2 A - - -

EnvironmentOperating Temperature -40 to 70 °C 0 to 50 °C -40 to 70 °C -40 to 70 °C

Storage Temperature -40 to 85 °C -20 to 85 °C -40 to 85 °C -40 to 85 °C

Humidity 10 to 95% (Non-condensing)10 to 95 %

(Non-condensing)5 to 95 %

(Non-condensing)

0 % to 95 % (Non-

condensing)

Air Pressure Up to 2000 m (795 hPa) Up to 2000 m (795 hPa) Up to 2000 m (795 hPa)Up to 2000 m

(795 hPa)Protection Class IP20 IP30 IP30 IP30

FAULTsignalcontactMaximum Current 1 A 1 A 2 A -

Maximum Voltage 60 V DC 60 V DC 30 V DC -

Approvals

Hazardous Location

uCL1604 Non-Incendive Class1 Dev2 ATEX100a (Type N)

- uCL1604 Non-Incendive Class1 Dev2 -

ShipbuildingABS (American Bureau of Shipping) DNV GL

- DNV GL -

Protective paint ANSI/ISA S71.04 G3 - ANSI/ISA S71.04 G3 -

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2.5.2 Wiring to Terminal Block

Sleeve attachment for cablesFor safe wiring, make sure to use a sleeve for a cable connected to the terminal block for Power Input or FAULT Output.Assemble the edge of the cable into the sleeve. Use appropriate sleeves for applicable cables.

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Length of exposed wire

Core wirecable

d2d1

L2

L1

Sleeve with insulation cover

Figure Cable assembly with sleeve

Table SleeveforApplicableCables

Cable Thickness Length of exposedwire(mm)

Sleevedimensions(mm) WeidmullerModel

NumberL1 L2 d1 d2Conductor cross-section AWG0.5 mm2 20 8 12 6 1.0 2.6 H0.5/120.75 mm2 18 8 12 6 1.2 2.8 H0.75/121.0 mm2 17 8 12 6 1.4 3.0 H1.0/121.25 to 1.5 mm2 16 10 14 8 1.7 3.5 H1.5/14

IMPORTANT• Use the same manufacturer for sleeves and tools.

• Use sleeve tools that match the wire thickness.

• Cut the top of core wire if it extends from the metal tube of the sleeve.

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CableclamptoterminalblockAs for wiring for a cable clamp to a terminal block, see below.

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-/N +/L

Figure Cableclamptoterminalblock

The use of drivers which comply with DIN 5264B standard (flat blade screw driver with tip thickness 0.6 mm, axis radius 3.5 mm) is recommended when connecting cables. Loosen the pressure clamp of the terminal block by turning the screw counterclockwise. Firmly insert the assembled cable with sleeve into an appropriate pin of the terminal block. Firmly fasten the pressure clamp of the terminal block by turning the screw clockwise. The tightening torque for pressure clamp is 0.5 N•m (4.4 lbf • in).

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3.ConfigurationBackup/Restore 3-1

TI 30A10A30-01E

3. ConfigurationBackup/RestoreThissectiondescribesthebackupandrestorationprocedureofconfiguringtheManagedSwitchesbyusingAuto-ConfigurationAdapter(ACA). ForrestoringtheManagedSwitchestothedefaultconfiguration,see“clearconfigfactory” command in section 4.3.4.

3.1 ConfigurationFileArchitectureThe current configuration of the Managed Switch is based on the “running-config” file in the system RAM.When the ACA is disconnected, the Managed Switch boots up with “startup-config” file in the non-volatile RAM (NVRAM), and the “running-config” file is copied from the “startup- config”.When the ACA with an applicable configuration file is connected, the Managed Switch boots up with the “switch.cfg” file in the ACA from where the “running-config” and “startup-config” files are copied.

F030101.ai

NVRAM (Nonvolatile RAM)

startup-config

Duplicate

running-config

System Memory (RAM) System Memory (RAM)

switch.cfg

A C A

Inside of Switch

NVRAM (Nonvolatile RAM)

startup-config

Duplicate

running-config

Duplicate

Boot up without ACA Boot up with ACA

Inside of Switch

Figure ConfigurationfilesforManagedSwitch

Command Line Interface (CLI) can modify the “running-config” file in the system RAM.To save the modification before rebooting, copy the “running-config” file to the “startup-config” file in the NVRAM. If this copy command is executed while the ACA is connected, the “running-config” file is saved as “switch.cfg” in the ACA. (For copying the configuration file, see section “4.3.5 copy” command.)Since the ACA is identified as a USB storage device by connecting to a computer, the configuration file in the ACA is named as “switch.cfg,” a binary format file.

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3.ConfigurationBackup/Restore 3-2

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3.2 ConfigurationBackuptoACAThe configuration backup procedure using an ACA is described as below.

1) Clear the ACA device. Connect the ACA to a computer. Delete all files in the ACA by file operation on the computer. Save the files which will be reused before deleting.

2) Disconnect the ACA from the computer after conducting the common USB device removal procedure.

3) Connect the empty ACA to the USB port of the Managed Switch.

4) Execute “copy system:running-config nvram:startup-config” command. (See section 4.3.5 for the copy command)

5) Disconnect the ACA from the Managed Switch, after the copy command is finished and a prompt is displayed.

6) Confirm if a new “switch.cfg” file is created in the ACA. Save the “switch.cfg” file to the computer for backup.

3.3 RestoreconfigurationfromACAThe procedure to restore the configuration from an ACA is described as below.

1) Clear the ACA device. Connect the ACA to a computer. Delete all files in the ACA by file operation on the computer. Save the files which will be reused before deleting.

2) Copy the saved backup file in the computer or a recording media to a root folder of the ACA.

3) Disconnect the ACA from the computer after the USB device is safely removed.

4) Connect the ACA with the backup file to the USB port of the Managed Switch during power off.

5) In case the Managed Switch is powered on when the ACA is connected, it boots up with the configuration file in the ACA and updates the “startup-config” in NVRAM automatically.

6) Disconnect the ACA from the Managed Switch after booting up.

7) Confirm the restoration result after rebooting without the ACA.

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4.ConfigurationSetup 4-1

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4. ConfigurationSetupInatypicalVnet/IPnetworkdesignbasedonthe“Vnet/IPNetworkconstructionguide,”ManagedSwitchesrequirenomodificationfromthedefaultconfigurationexceptforsomeapplications.ThissectiondescribessomebasicCommandLineInterface(CLI)CommandsforsettingupandconfirmingtheVnet/IPconfiguration.TheManagedSwitchesalsosupportmanyotherCLIcommandsnotdescribedinthisdocument.Formoreinformation,refertotheCLIReferenceManualintheattacheddiscmedia of the Managed Switch.ThisisnotapplicabletotheUnmanagedSwitch.

4.1 PreparationforsettingFor CLI control, connect a Managed Switch to a computer using a terminal cable. Use a terminal software such as “Teraterm” to emulate VT-100 terminal with the computer. The connection setup parameters for the terminal software are as shown below.

• Speed: 9600 bps

• Data: 8 bit

• Parity: None

• Stopbit: 1 bit

• Handshake: None

Several of the commands may display many and/or long line of response messages. For the terminal software, the recommended display setup is as shown below

• Expand the terminal window size to approximately 120 columns.

• Expand the scroll buffer size to approximately 10000 lines.

F040101.ai

V.24USB

Aufkle

berM

AC-Ad

resse

P

FAULTFAULT

Sb

RM

5

6

7

8

1 3

2 4

9 11

10 12

13 15

14 16

17 19

18 20

21 23

22 24

MA CH104-20TX-F

Connect COM port of a computer to V. 24 port of the ManagedSwitch with the terminal cable.

Computer as a setup tool

Use a Connection setup for terminal software on the computer as below.

- Speed: 9600 bps- Data: 8 bit- Parity: None- Stopbit: 1 bit- Hardshake: None

Use a USB-Serial converter if the computerhas no COM port.

Figure Connection for CLI control

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The following login message will be displayed after booting up when the terminal software is correctly set. No line will be displayed on the terminal software if it runs after the boot up of the Managed Switch. In such case, the login message is displayed by hitting the “Enter” key.Key-in the following underlined characters in the login window.

User: admin

Password: private

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Copyright (c) 2004 - 2010 Hirschmann Automation and Control GmbH

All rights reservedMACH Release L2P-06.0.01

(Build date 2010-09-24 21:19)

User:adminPassword: *******

System Name: MACH-FD5400Mgmt-IP: 0.0.0.0Base-MAC: 00:80:63:FD:54:00System Time: 2011-03-20 20:56:29

Figure Login window

The CLI is automatically logged out after a long idle time. The default login timeout is set at five minutes.Log in again to continue operation once logged out.

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4.2 SummaryofCommandLineInterface(CLI)The Command Line Interface (CLI) has several command modes. Available CLI commands vary depending on the command modes. The structure of the command modes is as shown below. For changing the command mode, key-in the command over each of the arrowed line. User Exec mode is the starting point just after log-in.

F040201ai

User Exec

Privileged Exec

VLAN

Global Config

Line Config

Interface Config

MAC AccessList Config

Router RIPConfig

Router OSPFConfig

vlan database

configure

line

router rip

router ospf

enable

exit

exit

exit

exit

exit

exit

exit

exit

mac-access-list extended

Interface

Figure Structure of CLI command modes

Table CLI command mode

Command Mode Prompt Description

User Exec > This is the first level of access, supporting a limited set of available commands in the Privileged Exec mode.Privileged Exec # Most of the basic operation commands are available in this mode.VLAN (Vlan) # All the commands pertaining to VLANs are grouped by this mode.

Global Config (Config) #This mode permits the operator to make modifications to the running configuration. General setup commands are grouped in this mode.

Line Config (Line) # Operators are allowed to configure the console interface by this mode.

Interface Config (Interface ) #Interface commands to modify operations of an interface can be used in this mode.The slot No. of the Managed Switch is always “1,” and the port No. indicates the port No. to modify.

MAC Access List Config (Config macaccess-list) #

Create a MAC Access-List and enter the mode containing Mac Access-List configuration commands.

Router RIP Config (Config Router) # An operator is allowed to access the router RIP configuration commands.

Router OSPF Config (Config Router) # An operator is allowed to access the router OSPF configuration commands.

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The Command Line Interface supports following functions.

CommandinputassistantfunctionOnce enough letters are entered to uniquely identify a command name, press the “Tab” key to let the system complete the rest of the command name.

Command/ParameterslistchoicesdisplayfunctionWhen a question mark “?” is entered, a list of possible command keywords or parameters is displayed. By entering “?” as the parameter for a command, a list of the parameters available and those descriptions are displayed. By entering “?” as the CLI prompt, a list of the commands available and those descriptions are displayed.

CommandhistorybufferfunctionCommand lines that are executed in the past can be stored into the history buffer of the device. These command lines can be reused.

• Entering “Ctrl”+“P”, go to previous line in history buffer.

• Entering “Ctrl”+“N”, go to next line in history buffer.

Up/Down cursor keys can be used instead of entering “Ctrl”+“P”/“N,” which is useful in repeating a simple command set.

TextinputfunctionA group of sequential commands can be input by using paste function of a text editor, which is useful to set up the configuration by using a template text file prepared for a particular network application.The command entry buffer cannot accept too many command lines at a time. For to use this function, set the transmit delay time to 1 msec/char on the serial port setup window of the terminal software, and confirm if all the pasted commands are executed completely.

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4.3 CLI commandBasic commands to change/confirm the configuration of Managed Switch are introduced in this section.To save the modification for on-going usage, copying “running-config” to “startup- config” in NVRAM is required. (See section 4.3.5)

4.3.1 Confirmconfiguration(showrunning-config)To display the current setting of the different protocol packages supported by the switch, use “show running-config” command. This command only displays the parameters of which values are different from the default valueTo show all the running configuration on the switch, use “show running-config all” command. This command displays all the configuration parameters even if those values are in defaults.Both “show running-config” and “show running-config all” commands are available in “Privileged Exec” mode.For recording the configuration script as a text file, use the log function of the terminal software.A sample display of “show running-config” command execution is as shown below.

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(Hirschmann Railswitch) >enable(Hirschmann Railswitch) #show running-config

!Current Configuration:!Customized factory setting active!!Parameter string escape handling \, 1!Characters to be preceded with escape char (\): \, !, ", ', ?

!System Description "Hirschmann Railswitch"!System Version L2P-06.0.01 Build: 2010-09-24 18:18

vlan databaseexit

network protocol nonenetwork protocol hidiscovery off!RMA operation!RMA entry

(The res t i s omit ted . )

Figure Exampleof“showrunning-config”commandexecutiondisplay

The exclamation mark “!” flags the beginning of a comment. The comment flag is used to ignore all the inputs following this mark anywhere on the command line. Any command line that begins with “!” is recognized as a comment line and ignored.

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4.3.2 Confirmsysteminformation(showsysinfo)To confirm the system information of the Managed Switch, use “show sysinfo” command. The “show sysinfo” command is available in “Privileged Exec” mode or “User Exec” mode.A sample display of “show sysinfo” command execution is as shown below.

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(Hirschmann MACH) #show sysinfo

Last Alarm 1................................... Failure of Power Supply 2Alarm 2........................................ None

System Description............................. Hirschmann MACHSystem Name.................................... MACH-9EFA00System Location................................ Hirschmann MACHSystem Contact................................. Hirschmann Automation and Contro l GmbHSystem Up Time................................. 0 days 0 hrs 35 mins 25 secsSystem Date and Time (local time zone)......... 2011-03-22 09:57:55System IP Address.............................. 0.0.0.0Boot Software Release.......................... 05.1.00Boot Software Build Date....................... 2009-10-16 19:43OS Software Release............................ L2P-06.0.01OS Software Build Date......................... 2010-09-24 21:19Backplane Hardware Revision.................... 1.02 / 15 / 0102Backplane Hardware Description................. MACH104-20TX-FRSerial Number (Backplane)...................... 942003101000001049Base MAC Address (Backplane)................... 00:80:63:9e:fa:00Number of MAC Addresses (Backplane)............ 64 (0x40)

Configuration state............................ OK

Auto Configuration Adapter, State.............. Not presentAuto Configuration Adapter, Serial Number......

--More-- or (q)uit

Power Supply P1, State......................... PresentPower Supply P2, State......................... Failed

Media Module Information: MACH104-20TX-FR

SFP Information : Sup- Temp. TxPwr RxPwr RxPwr Port Module Type Serial No. ported (deg C/F) (mW) (mW) State ---- ---------------- ---------------- ------ --------- ------ ------ ----- 5 M-SFP-LX/LC PJ143B6 Yes 37 / 98 0.2675 0.0001 Alarm

CPU Utilization................................ 17%Average CPU Utilization........................ 9%

Flashdisk (Kbytes free)........................ 5994

Figure Exampleof“showsysinfo”commandexecutiondisplay

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Key parameters in the above display are explained as below.

AlarmThe latest present alarm is indicated. The alarm condition is the same as for a signal contact. (In the above example, the device detects P2 power failure.)

System IP AddressThe assigned IP address for management of the Managed Switch is indicated.

ConfigurationStateThe actual configuration state is indicated as follows.

[OK]: The current configuration (“running-config”) has not been modified from “startup-config”.

[Not in sync]: Unsaved modifications in the current configuration exists.

AutoConfigurationAdapter,StateThe ACA state is indicated as follows.

[OK]: The current configuration is synchronized with ACA.

[Not present]: ACA is not present.

[Not in sync]: The current configuration is not synchronized with ACA. Or, no valid configuration file exists in ACA.

[Wrong machine]:The configuration file in ACA is not available. Or, the file is not compatible with the device.

PowerSupplyP1,StateThe P1 power supply state is indicated.

PowerSupplyP2,StateThe P2 power supply state is indicated as follows.

[Present]: Power is supplied normally.

[Failed]: The power supply input or unit is failed.

SFP InformationThe description of each SFP media module is indicated. The information shows the operating status of the SFP module per port. The remarkable part of the information is “RxPwr state” which is displayed as follows.

[OK]: SFP is detecting normal optical signal power.

[Alarm]: SFP does not work normally due to optical signal loss.

In the above “show sysinfo” example of command execution, the SFP on port 5 is detecting optical signal loss failure.

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4.3.3 Confirmportstatus(showportall)To confirm all port status, use “show port all” command. This command is available in “Privileged Exec” mode or “User Exec” mode.A sample display of “show port all” command execution is as shown below.

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(Hirschmann MACH) #show port all

Admin Physical Physical Link Link Cable-Cross Flow Device VLANIntf Type Mode Mode Status Status Trap PhysMode Fix Mode status Prio------ ------ ------- ---------- ---------- ------ ------- ------------ ------- ------- ----1/1 Enable Auto 1000 Full Up Enable Disable Enable Ignore 01/2 Enable Auto 1000 Full Up Enable Disable Enable Ignore 01/3 Enable Auto 100 Full Up Enable Disable Enable Ignore 01/4 Enable Auto 100 Full Up Enable Disable Enable Ignore 01/5 Enable Auto 1000 Full Up Enable Unsupported Enable Ignore 01/6 Enable Auto Down Enable Disable Enable Ignore 01/7 Enable Auto Down Enable Disable Enable Ignore 01/8 Enable Auto Down Enable Disable Enable Ignore 01/9 Disable Auto Down Enable Disable Enable Ignore 01/10 Disable Auto Down Enable Disable Enable Ignore 01/11 Disable Auto Down Enable Disable Enable Ignore 01/12 Disable Auto Down Enable Disable Enable Ignore 01/13 Disable Auto Down Enable Disable Enable Ignore 01/14 Disable Auto Down Enable Disable Enable Ignore 01/15 Disable Auto Down Enable Disable Enable Ignore 01/16 Disable Auto Down Enable Disable Enable Ignore 0

Figure Exampleof“showportall”commanddisplay

Key parameters in the above display are explained as below.

Admin ModeThe port control administration state is displayed as follows.

[Enable]: This port is available.

[Disable]: This port is not available.

The default value is Enable for all ports. By using “shutdown” command, it can be changed to Disable. (See section 4.3.6) The above sample display indicates that the ports 9 to 16 are disabled as unused ports.

Physical ModeThe configuration of link speed and duplex mode are indicated as follows.

[Auto]: Auto-negotiation

[10 Half]: 10 Mbps, Half duplex

[10 Full]: 10 Mbps, Full duplex




The default value is set as [Auto] for all ports. For Vnet/IP, the auto-negotiation should always be used.

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Physical StatusThe link speed and duplex mode state of each link up port are displayed as follows.






In case of a typical link for Vnet/IP stations, the status indicates [1000 Full]. In case of the link without GbE ability such as SCS, Vnet router, or WAC router, the status indicates [100 Full].In a typical Vnet/IP network, Half duplex mode is not used. If the status indicates [Half], confirm the device configuration and the grade of cable quality.

Link StatusThis parameter indicates if the link is up or down.

[Up]: The link is up.

[Down]: The link is down.

Cable-CrossPhysModeFixThe configuration of straight/crossover (MDI/MDI-X) manual selection for RJ-45 port of which auto-negotiation is disabled is displayed as follows.

[Disable]: MDI-X (for downward link)

[Enable]: MDI (for upward link)

[Unsupported]: The crossover function is not supported.

When the auto-negotiation is enabled, Auto MDI/MDI-X (Auto cable crossing) function is enabled automatically. This configuration parameter is ignored in auto-negotiation port. (*1)The default value is “Disable”. For SFP port, it is displayed as [Unsupported] because the crossover function is not available for an optical interface.

*1: For Vnet/IP network, Auto MDI/MDI-X function must be enabled. For Auto MDI/MDI-X function, using only straight cable for either downward link or upward link is recommended.

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4.3.4 Restoretodefault(clearconfigfactory)To restore the Recommended Switch to default configuration, use “clear config factory” command. This command is available in Privileged Exec mode.By using this command, the device is restored to factory default for Vnet/IP. Press “y” key to the confirmation message for execution of this command.

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(Hirschmann Railswitch) #clear config factory

WARNING: ALL configuration data will be erased from non volatile storage!This may take up to a minute depending on your configuration.

Are you sure you want to clear the configuration? (y/n)y

Figure Anexampleof“clearconfigfactory”commandexecution

4.3.5 Save/Backupconfiguration(copy)For Recommended Switch, several types of configuration files such as “running- config” and “startup-config” exist. See section 3 for more information regarding the configuration file architecture and restoring procedure of Recommended Switches.To save the “running-config” file of the current operation in the boot up “startup-config” file, use “copy system:running-config nvram:startup-config” command available in Privileged Exec mode.When this command is executed while the ACA is connected, the configuration file saved in the “startup- config” is copied to the ACA as “switch.cfg”.Press “y” key to the confirmation message for execution of this command.

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(Hirschmann MACH) #copy system:running-config nvram:startup-configAre you sure you want to save? (y/n) yConfiguration Saved!

Figure Exampleof“copysystem:running-confignvram:startup-config”display

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4.3.6 PortDisableforunusedport(shutdown)To disable particular ports such as unused ports, use “shutdown” command in “Interface Config” mode. The following example shows the commands for disabling port 5.

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(Hirschmann Railswitch) >enable(Hirschmann Railswitch) #configure(Hirschmann Railswitch) (Config)#interface 1/5(Hirschmann Railswitch) (Interface 1/5)#shutdown

Figure Exampleof“shutdown”commanddisplay

To reactivate the disabled port, use “no shutdown” command in “Interface Config” mode.

F040307.ai

(Hirschmann Railswitch) (Interface 1/5)#no shutdown

Figure Exampleof“noshutdown”commanddisplay

To confirm the port status, see section 4.3.3

4.3.7 SetmanagementIPaddress(networkparms)To assign a management IP address for the Recommended Switch, use “network parms” command which is available in “Privileged Exec” mode. Network Management System (NMS) is a typical application required for this configuration.An IP address for Vnet/IP open communication is available for the management IP address. Assign a unique IP address to each Recommended Switch in order to prevent IP address conflicts. The following example shows the command to set the management IP address to 192.168.1.130/24.

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(Hirschmann Railswitch) #network parms 192.168.1.130 255.255.255.0

Figure Exampleof“Networkparms”commandexecution

To confirm the assigned management IP address, see section 4.3.2.

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4.3.8 Cascaded domain connection by L3SWThis section explains a sample configuration for a cascaded domain connection by the Recommended L3SWs. A sample diagram of the Vnet/IP network is as shown below.

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Domain 1 Domain 3 Domain 5

Port１ Port３ Port３ Port５192.168.1.253 192.168.3.253 192.168.3.252 192.168.5.253

(1) Change IP address for the cascaded portGet rid of IPaddress conflict

(2) Disableunnused ports

(2) Disableunnused ports

L2SWL2SW L2SW

L3SW-1 L3SW-2

Figure ExampleofVnet/IPnetworkcascadeddomainconnection(BUS1sideonly)

The same IP address is assigned to the same port of Recommended L3SW by default. In case of the above example, IP address conflict occurs at the cascaded point of L3SWs where each L3SW has the same IP address (192.168.3.253) by default. Therefore the IP address assigned to either L3SW-1 or L3SW-2 of Port 3 must be changed to a unique address resolve this IP address conflict. An example of the IP address assignment for L3SW-2 is as shown below.The IP address assignment for L3SW-2

• BUS1 of Port 3: 192.168.3.252

• BUS2 of Port 3: 192.168.131.252

In case of the cascaded domain, unused ports of each Recommended L3SW has to be disabled in order to prevent accidental happenings due to wrong connections.When port 5 of L3SW-1 is still enabled in the above Vnet/IP network and if the port becomes link-up due to wrong connection, the inter domain communication will fail because of a wrong routing table entry.

TIP Recommended L3SW does not register link-down ports to its routing table. Clearing the assigned IP address for the disabled ports is not required.

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SettingprocedureFor the cascaded domain connection, an example of a setting procedure is as shown below.

IMPORTANTThe L3SW from live network must be segregated before executing this procedure unless otherwise the Vnet/IP network will become unstable caused by the address conflict during an incomplete configuration.

(1) AssignuniqueIPaddresstocascadedportofRecommendedL3SWTo change the assigned IP address of the Recommended L3SW port, use “ip address” command in “Interface Config” mode. The following configuration shows a sample of assigning the IP address of port 3 as “192.168.3.252/24”.

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(Hirschmann MACH) >enable(Hirschmann MACH) #configure(Hirschmann MACH) (Config)#interface 1/3(Hirschmann MACH) (Interface 1/3)#ip address 192.168.3.252 255.255.255.0

Figure ExampleofchanginganIPaddressforL3SWport

To confirm the modification of the assigned IP address for each L3SW port, use “show ip interface brief” command in “Privileged Exec” mode. A sample display of “show ip interface brief” command execution is as shown below. By using this command, confirm if the modification of assigned IP address for each port is correct.

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(Hirschmann MACH) #show ip interface brief

Netdir MultiInterface IP Address IP Mask Bcast CastFwd--------- --------------- --------------- -------- --------1/1 192.168.1.253 255.255.255.0 Disable Disable1/2 192.168.2.253 255.255.255.0 Disable Disable1/3 192.168.3.252 255.255.255.0 Disable Disable1/4 192.168.4.253 255.255.255.0 Disable Disable1/5 192.168.5.253 255.255.255.0 Disable Disable1/6 192.168.6.253 255.255.255.0 Disable Disable1/7 192.168.7.253 255.255.255.0 Disable Disable1/8 192.168.8.253 255.255.255.0 Disable Disable1/9 192.168.9.253 255.255.255.0 Disable Disable1/10 192.168.10.253 255.255.255.0 Disable Disable1/11 192.168.11.253 255.255.255.0 Disable Disable1/12 192.168.12.253 255.255.255.0 Disable Disable1/13 192.168.13.253 255.255.255.0 Disable Disable1/14 192.168.14.253 255.255.255.0 Disable Disable1/15 192.168.15.253 255.255.255.0 Disable Disable1/16 192.168.16.253 255.255.255.0 Disable Disable

Figure Exampleof“showipinterfacebrief”commanddisplay

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(2) DisableunusedportsnotconnectedtoanydomainTo disable unused ports, use “shutdown” command in “Interface Config” mode. The following example shows the commands to disable the ports 2 and 4 to 16 of L3SW-1.

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(Hirschmann MACH) >enable(Hirschmann MACH) #configure

(Hirschmann MACH) (Config)#interface 1/2(Hirschmann MACH) (Interface 1/2)#shutdown(Hirschmann MACH) (Interface 1/2)#exit


( S n i p ) i n t e r f a c e 1 / 5 t o 1 / 1 5 - - - r e p e a t t h e s a m e s e t t i n g


(Hirschmann MACH) (Config)#exit(Hirschmann MACH) #

Figure Exampleofconfigurationtodisableunusedports

To confirm if the unused ports are disabled appropriately, use “show port all” command. (See section 4.3.3) The following sample display shows the result of “show port all” command execution after setting the L3SW-1. Confirm if the modification of port disabling is correct by using this command.

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Admin Physical Physical Link Link Cable-Cross Flow Device VLAN Intf Type Mode Mode Status Status Trap PhysMode Fix Mode status Prio------ ------ ------- ---------- ---------- ------ ------- ------------ ------- ------- ----1/1 Enable Auto Down Enable Disable Enable Ignore 01/2 Disable Auto Down Enable Disable Enable Ignore 01/3 Enable Auto Down Enable Disable Enable Ignore 01/4 Disable Auto Down Enable Disable Enable Ignore 01/5 Disable Auto Down Enable Disable Enable Ignore 01/6 Disable Auto Down Enable Disable Enable Ignore 01/7 Disable Auto Down Enable Disable Enable Ignore 01/8 Disable Auto Down Enable Disable Enable Ignore 01/9 Disable Auto Down Enable Disable Enable Ignore 01/10 Disable Auto Down Enable Disable Enable Ignore 01/11 Disable Auto Down Enable Disable Enable Ignore 01/12 Disable Auto Down Enable Disable Enable Ignore 01/13 Disable Auto Down Enable Disable Enable Ignore 01/14 Disable Auto Down Enable Disable Enable Ignore 01/15 Disable Auto Down Enable Disable Enable Ignore 01/16 Disable Auto Down Enable Disable Enable Ignore 0

Figure Exampleofconfirmingthestatusforunusedports

Once the configuration to cascade the domains has finished through above procedure, use “copy system:running-config nvram:startup-config” command to save the configuration to the non-volatile memory as the startup-config file. (See section 4.3.5.)

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SettingupadditionaldomainTo add a domain in a cascaded Vnet/IP domain network, enable the L3SW port for additional domain connection.The following diagram shows an example of Vnet/IP network where Domain 2 is added.

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L2SW L2SW L2SW L2SW

L3SW-1 L3SW-2

Domain 1

Port 1 Port 3 Port 3 Port 5192.168.1.253 192.168.3.253 192.168.3.252 192.168.5.253

Domain 5Domain 3Domain 2

192.168.2.253Port 2

Additional Domain

Enable port 2 for additional Domain.

Figure Exampleofanetworkwithaddeddomain2(BUS1sideonly)

To reactivate the disabled L3SW port, use “no shutdown” command. (See section 4.3.6.) The following example shows the command to activate the port 2 of the L3SW-1.

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(Hirschmann MACH) >enable(Hirschmann MACH) #configure

(Hirschmann MACH) (Config)#interface 1/2(Hirschmann MACH) (Interface 1/2)#no shutdown(Hirschmann MACH) (Interface 1/2)#exit

(Hirschmann MACH) (Config)#exit(Hirschmann MACH) #

Figure Exampleofaconfigurationtoenableaport

To confirm the modification, use “show port all” command. (See section 4.3.3.)Use “copy system:running-config nvram:startup-config” command to save the configuration to the non-volatile memory as startup-config file. (See section 4.3.5.)

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4.3.9 ConfiguringaringnetworkThis section describes how to configure a ring network using network switches for Vnet/IP.

Setting an L2SW for MRP ring networkThe example below describes how to configure an L2SW in a ring network using an MRP. The ring part must be wired after all the settings of the L2SW are done.L2SW setting for Ring manager

F040316.ai

(Hirschmann MACH) >enable(Hirschmann MACH) #configure(Hirschmann MACH) (Config)#mrp new-domain default-domainMRP domain created:Domain ID: 255.255.255.255.255.255.255.255.255.255.255.255.255.255.255.255 (Default MRP domain)(Hirschmann MACH) (Config)#mrp current-domain port primary 1/1Primary Port set to 1/1(Hirschmann MACH) (Config)#mrp current-domain port secondary 1/2Secondary Port set to 1/2(Hirschmann MACH) (Config)#mrp current-domain mode managerMode of Switch set to Manager(Hirschmann MACH) (Config)#mrp current-domain recovery-delay 200msRecovery delay set to 200ms(Hirschmann MACH) (Config)#mrp current-domain advanced-mode enableAdvanced Mode (react on link change) set to Enabled(Hirschmann MACH) (Config)#mrp current-domain operation enableOperation set to Enabled(Hirschmann MACH) (Config)#exit

L2SWsettingforotherthanRingmanager(non-RM)When setting the L2SW in a non-RM configuration, the parameter has to be changed from “manager” to “client” by “mrp current-domain mode” command. This is the only difference between the RM and non-RM configuration.The ring network setting status by the MRP can be confirmed by “show mrp” command. An example is shown below when the “show mrp” command is executed.

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(Hirschmann MACH) #show mrpDomain ID: 255.255.255.255.255.255.255.255.255.255.255.255.255.255.255.255 (Default MRP domain)Configuration Settings:Advanced Mode (react on link change).... EnabledManager Priority........................ 32768Mode of Switch (administrative setting). ManagerMode of Switch (real operating state)... ManagerDomain Name............................. Recovery delay.......................... 200msPort Number, Primary.................... 1/1, State: Not ConnectedPort Number, Secondary.................. 1/2, State: Not ConnectedVLAN ID................................. 0 (No VLAN)Operation............................... Enabled

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SettingFAULTterminalactionIn case an L2SW is assigned as a ring manager, FAULT terminal output has to be set when a ring network failure is detected. For how to add the ring network status as a subject for monitoring of the FAULT terminal (*1) is explained as follows.

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(Hirschmann MACH) #configure(Hirschmann MACH) (Config)#signal-contact 1 monitor hiper-ring enable(Hirschmann MACH) (Config)#exit

In the default setting, the FAULT terminal monitors only power supply, and the terminal is set in short circuit under the normal operation. By changing the setting as explained above, the FAULT terminal becomes open not only when the power supply failure is detected but also when the ring network failure is detected. Once the failure is recovered in the ring network, the FAULT terminal recovers to the short-circuit status.

*1: Out of the two FAULT terminals provided for dual-power supply model of MAR1040 family, the above setting is applicable to the FAULT terminal 1. For this model, FAULT terminal 1 can be assigned for power supply failure and FAULT terminal 2 for monitoring the ring network status by changing the number assignment of the command terminal from “1” to “2.”

“Show signal-contact” command shall be used for confirming the setting status of the FAULT terminal action. An example is as shown below after the “show signal-contact” command is executed.

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(Hirschmann MACH) #show signal-contactSignal Contact 1, mode......................... AutoSignal Contact 1, monitor 'ACA not in sync'.... DisabledSignal Contact 1, monitor 'ACA removal'........ DisabledSignal Contact 1, monitor 'Connection error'... DisabledSignal Contact 1, monitor 'HIPER Ring'......... EnabledSignal Contact 1, monitor 'Module removal'..... DisabledSignal Contact 1, monitor 'Power supply 1'..... EnabledSignal Contact 1, monitor 'Power supply 2'..... DisabledSignal Contact 1, monitor 'Ring/Netw. coupl.'.. DisabledSignal Contact 1, monitor 'Temperature'........ DisabledSignal Contact 1, state (manual setting)....... Open (does not take effect)Signal Contact 1, state (operating, current)... ClosedSignal Contact 1, trap......................... Disabled< D i t t o f o r S i g n a l C o n t a c t 2 >

“Show signal-contact all state” command is used to confirm short circuit/open status of the FAULT terminal. An example is as shown below after the “show signal-contact all state” command is executed.

F040320.ai

(Hirschmann MACH) #show signal-contact all stateSignal Contact 1, state (manual setting)....... Open (does not take effect)Signal Contact 1, state (operating, current)... Closed< D i t t o f o r S i g n a l C o n t a c t 2 >

Saving changes in settingsWhen setting for each of the L2SW is completed, save all the settings to a non-volatile memory by using the “copy system: running-config nvram:startup-config” command.

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Appendix1.Defaultconfiguration App.1-1

TI 30A10A30-01E

Appendix1.DefaultconfigurationThe Recommended Switches are provided with the customized default configuration for Vnet/IP to connect to Vnet/IP network as described in the summary below.For Recommended L2SW, the customized default configuration is as shown below.

• Auto-negotiation: Enable

• Auto MDI/MDI-X (cable crossing): Enable

• IGMP Snooping: Disable

• STP (RSTP): Disable

For Recommended L3SW, the customized default configuration is as shown below. The default configuration allows the L3SW to connect Vnet/IP domain to each port directly.

• Auto-negotiation: Enable

• Auto MDI/MDI-X (cable crossing): Enable

• STP (RSTP): Disable

• Port based routing: Enable

• IP address assigned each port: See following table.

• Routing protocol: RIP

• Sprit horizon for RIP: Enable (Simple mode)

• RIP update-timer: 1 second

• RIP send version: RIP2 (RIP1 compatible mode)

• RIP receive version: Both RIP1 and RIP2

• Multi-cast routing: Enable

• IGMP: Enable

• Multi-cast routing protocol: PIM-DM

Table DefaultIPaddressassignedtoeachportofaRecommendedL3SWForBUS1 ForBUS2

Port 1 192.168.1.253 192.168.129.253Port 2 192.168.2.253 192.168.130.253Port 3 192.168.3.253 192.168.131.253Port 4 192.168.4.253 192.168.132.253

: : :Port 15 192.168.15.253 192.168.143.253Port 16 192.168.16.253 192.168.144.253

To modify the configuration of Recommended Switch, use CLI through V.24 serial port. HiDiscovery, a tool supported by Hirschmann, is not available for the customized default configuration to harden the security.The default system alarm condition for FAULT signal contact is power failure. The FAULT signal contact becomes open when the power supply fails. In case of a redundant power unit model, the FAULT LED glows in RED when one power unit fails.

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For more information of the default configuration, the example of “show running-config” display is shown below. In the list, those blank or repeating lines are omitted.

RS40(L2SW)familydefaultconfigurationTherunning-configonRS40(LS2W)familydefaultconfiguration(1/2)

F0A0101.ai

(Hirschmann Railswitch) #show running-config

!Current Configuration:!Customized factory setting active!!Parameter string escape handling \, 1!Characters to be preceded with escape char (\): \, !, ", ', ?!System Description "Hirschmann Railswitch"!System Version L2P-06.0.01 Build: 2010-09-24 18:18

vlan databaseexit


configure !

interface 1/1 exit

interface 1/2 exit

(Sn ip ) in te r face 1 /3 to 1 /8 - - - repea t ing the same se t t ing .

interface 1/9 exit

!Address Conflict Detection!Bridge Address Learning!Bridge Fast Link Detection!Maximum size of frame (packet size)!Bridge Address Relearn Detection!Bridge Address Relearn Threshold!Bridge Duplex Mismatch Detection!Service Mode!VLAN Learning!Hirschmann DHCP Relay!Hirschmann Device Status!DHCP Server!DHCP Server pools!Ethernet/IP!Power over Ethernet (IEEE 802.3af)!Selftestselftest ramtest disable

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Therunning-configonRS40(LS2W)familydefaultconfiguration(2/2)

F0A0102.ai

!Hirschmann HIPER Ring!LLDP (IEEE802.1AB Link Layer Discovery Protocol)!Media Redundancy Protocol (IEC 62439/Ed1.0, MRP)!No MRP domains exist.!No entries in alarm table!MAC/IP Based Port Security!ProfinetIO!Hirschmann Precision Time Protocol (PTP, IEEE 1588)!Hirschmann Ring Coupling!Note: master/slave (also for single) part of configuration determined by! management

!Hirschmann Signal Contactssignal-contact 1 mode auto

!Hirschmann SNMP Access Control!SNTP!Hirschmann Broadcast Limiter!Hirschmann Temperature Limit Settings

users passwd admin :v1:81449548fb49a99b7998cce31a768e5fd9998f1f3f36ee43784d0dfabea6dae4:users snmpv3 authentication admin md5users snmpv3 encryption admin des :v1:81449548fb49a99b868edc296d4eff56e17020fb8fb1580590c509dc53cdaa3b:users passwd user :v1:81439e52f35ecc489952d3529d069feab5c206139849b2011eac3288319c5246:users snmpv3 authentication user md5users snmpv3 encryption user des :v1:81439e52f35ecc9571368f57f6391d16fa8874f5987c175c41bb6d718e0f7059:

lineconfigexit

no spanning-tree

!IGMP Snoopingexit

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MACH104(L2SW)familydefaultconfigurationTherunning-configonMACH104(LS2W)familydefaultconfiguration(1/2)

F0A0103.ai

(Hirschmann MACH) #show running-config

!Current Configuration:!Customized factory setting active!!Parameter string escape handling \, 1!Characters to be preceded with escape char (\): \, !, ", ', ?!System Description "Hirschmann MACH"!System Version L2P-06.0.01 Build: 2010-09-24 21:19

vlan databaseexit


configure !

interface 1/1 exit

interface 1/2 exit

(Sn ip ) in te r face 1 /3 to 1 /23 - - - repea t ing the same se t t ing .

interface 1/24 exit

!Address Conflict Detection!Bridge Address Learning!Maximum size of frame (packet size)!Bridge Address Relearn Detection!Bridge Address Relearn Threshold!Bridge Duplex Mismatch Detection!VLAN Learning!Hirschmann DHCP Relay!Hirschmann Device Statusdevice-status monitor power-supply-2 ignore!DHCP Server!DHCP Server pools!Ethernet/IP!Power over Ethernet (IEEE 802.3af)!Selftest!Hirschmann HIPER Ring!LLDP (IEEE802.1AB Link Layer Discovery Protocol)!Media Redundancy Protocol (IEC 62439/Ed1.0, MRP)!No MRP domains exist.!No entries in alarm table!MAC/IP Based Port Security!ProfinetIO

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Therunning-configonMACH104(LS2W)familydefaultconfiguration(2/2)

F0A0104.ai

!Hirschmann Precision Time Protocol (PTP, IEEE 1588)ptp clock-mode v1-simple-mode!Hirschmann Ring Coupling!Note: master/slave (also for single) part of configuration determined by! management

!Hirschmann Signal Contactssignal-contact 1 mode autosignal-contact 2 mode auto

!Hirschmann SNMP Access Control!SNTP!Hirschmann Broadcast Limiter!Hirschmann Temperature Limit Settings

users passwd admin :v1:81449548fb49a99b7cba5001ed1bea8a4988eed61485abb02cde3593112d011c:users snmpv3 authentication admin md5users snmpv3 encryption admin des :v1:81449548fb49a99bd7284330e7b008ed79991351d23a77ad3db4f8c7ca0322d2:users passwd user :v1:81439e52f35eccc9c6270f04ce7a3fc0682ccf726a09c24200725e4134f89669:users snmpv3 authentication user md5users snmpv3 encryption user des :v1:81439e52f35ecc3fbd3a58918be1cca2b192dd77a135fef34bbcb1e337110dc7:

lineconfigexit

no spanning-tree

!IGMP Snoopingexit

Note: The line “device-status monitor power-supply-2 ignore” is displayed for single power unit model only.

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MAR1040(L2SW)familydefaultconfigurationTherunning-configonMAR1040(LS2W)familydefaultconfiguration(1/2)

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(Hirschmann MACH) #show running-config

!Current Con

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