Page 1: Reference Manual
Reference Manual GUI Graphical User Interface Industrial ETHERNET (Gigabit-)Switch RS20/RS30/RS40, MS20/MS30 RM GUI L2E Technical Support Release 8.0 05/2013 https://hirschmann-support.belden.eu.com...
Page 2 In addition, we refer to the conditions of use specified in the license contract. You can get the latest version of this manual on the Internet at the Hirschmann product site (www.hirschmann.com). Printed in Germany Hirschmann Automation and Control GmbH Stuttgarter Str.
Page 3: Table Of Contents
Contents Contents About this Manual Opening the Graphical User Interface Basic Settings System Modules (MS, PowerMICE, MACH102 and MACH4000) Network Software 1.4.1 View the software versions presenton the device 1.4.2 Restoring the Backup Version 1.4.3 TFTP Software Update 1.4.4 TFTP Bootcode Update 1.4.5 HTTP Software Update 1.4.6 Automatic software update by ACA Port Configuration...
Page 4 Contents Port Security Login Banner Time Basic Settings SNTP configuration PTP (IEEE 1588) 3.3.1 PTP Global (MS20/MS30, PowerMICE, MACH 104, MACH 1040) 3.3.2 PTP Version 1 (MS20/MS30, PowerMICE, MACH 104, MACH 1040) 3.3.3 PTP Version 2 (BC) (MS20/MS30, PowerMICE, MACH 104, MACH 1040) 3.3.4 PTP Version 2 (TC) (MS20/MS30, PowerMICE, MACH 104, MACH 1040) Switching...
Page 5 Contents Redundancy Ring Redundancy 6.1.1 Configuring the HIPER-Ring 6.1.2 Configuring the MRP-Ring Ring/Network Coupling 6.2.1 Preparing a Ring/Network Coupling Spanning Tree 6.3.1 Global 6.3.2 Port Diagnostics Syslog Trap log Ports 7.3.1 Statistics table 7.3.2 Network load (Utilization) 7.3.3 SFP Transceiver Topology Discovery 7.4.1 LLDP Information from Neighbor Devices Port Mirroring...
Page 6 Contents 7.12 Self Test 7.13 Service Mode 7.13.1 Activating the service mode 7.13.2 Deactivating the service mode Advanced DHCP Relay Agent Industrial Protocols 8.2.1 PROFINET 8.2.2 EtherNet/IP 8.2.3 IEC61850 MMS Protocol (RSR, MACH 1000) Software DIP Switch overwrite (MICE, PowerMICE and RS) Command Line Appendix Technical Data...
Page 7: About This Manual
About this Manual About this Manual The “GUI” reference manual contains detailed information on using the graphical interface to operate the individual functions of the device. In the following, the GUI (Graphical User Interface) will be referred as Web- based Interface. The “Command Line Interface”...
Page 8 SNMP/OPC gateway. Maintenance  Hirschmann is continually working to improve and develop our software. You should regularly check whether there is a new version of the software that provides you with additional benefits. You will find software information and downloads on the product pages of the Hirschmann website.
Page 9: Key
The designations used in this manual have the following meanings:  List Work step   Subheading Link Cross-reference with link Note: A note emphasizes an important fact or draws your attention to a dependency. ASCII representation in user interface Courier Symbols used: WLAN access point...
Page 10 A random computer Configuration Computer Server PLC - Programmable logic controller I/O - Robot RM GUI L2E Release 8.0 05/2013...
Page 11: Opening The Graphical User Interface
Opening the Graphical User Interface Opening the Graphical User Interface To open the graphical user interface, you need a Web browser, for example Mozilla Firefox version 3.5 or later, or Microsoft Internet Explorer version 6 or later. Note: The graphical user interface uses Java 6 or Java 7. Install the software from the enclosed CD-ROM.
Page 12 Opening the Graphical User Interface Figure 1: Installing Java  Start your Web browser.  Activate Java in the security settings of your Web browser.  Establish the connection by entering the IP address of the device which you want to administer via the Web-based management in the address field of the Web browser.
Page 13 Opening the Graphical User Interface Figure 2: Login window  Click on OK. The user interface (Web-based Interface) of the device appears on the screen. Note: The changes you make in the dialogs will be copied to the volatile memory of the device (RAM) when you click “Set”. Click “Reload” to update the display.
Page 14 Opening the Graphical User Interface Note: If you enter an incorrect configuration, you may block access to your device. Activating the function “Cancel configuration change” in the “Load/Save” dialog enables you to return automatically to the last configuration after a set time period has elapsed.
Page 15 Opening the Graphical User Interface The menu section displays the menu items. By placing the mouse pointer in the menu section and clicking the alternate mouse button you can use “Back” to return to a menu item you have already selected, or “Forward” to jump to a menu item you have already selected.
Page 16 Opening the Graphical User Interface RM GUI L2E Release 8.0 05/2013...
Page 17: Basic Settings
Basic Settings 1 Basic Settings The Basic Settings menu contains the dialogs, displays and tables for the basic configuration:  System  Modules  Network  Software  Port configuration  Power over Ethernet  Load/Save  Restart Note: The graphical user interface uses Java 6 or Java 7. Install the Software from www.java.com.
Page 18: System
Basic Settings 1.1 System 1.1 System The “System“ submenu in the basic settings menu is structured as follows:  Device Status  System data  Device view  Reloading data Figure 4: "System" Submenu Device Status  This section of the graphical user interface provides information on the device status and the alarm states the device has detected.
Page 19: System Data
Basic Settings 1.1 System Figure 5: Device status and alarm display 1 - The symbol displays the device state 2 - Cause of the oldest existing alarm 3 - Start of the oldest existing alarm System Data  The fields in this frame show operating data and information on the location of the device.
Page 20: Device View
Basic Settings 1.1 System Device View  The device view shows the device with the current configuration. The status of the individual ports is indicated by one of the symbols listed below. You will get a full description of the port's status by positioning the mouse pointer over the port's symbol.
Page 21 Basic Settings 1.1 System Reloading  The graphical user interface automatically updates the display of the dialog every 100 seconds. In the process, it updates the fields and symbols with the values that are saved in the volatile memory (RAM) of the device.
Page 22: Modules (Ms, Powermice, Mach102 And Mach4000)
Basic Settings 1.2 Modules (MS, PowerMICE, MACH102 and MACH4000) 1.2 Modules (MS, PowerMICE, MACH102 and MACH4000) When you plug a module in an empty slot of a modular device, the device configures the module with the port default settings. With the port default settings loaded on the module, access to the network is possible.
Page 23 Basic Settings 1.2 Modules (MS, PowerMICE, MACH102 and MACH4000) Note: The following modular devices support this function: MS (soho), PowerMICE (ms4128), MACH102 (soho) and MACH4000 (ex and dx) family. Figure 8: "Modules" Dialog This configuration table allows you to enable or disable the slots and also displays the module parameters.
Page 24 Basic Settings 1.2 Modules (MS, PowerMICE, MACH102 and MACH4000)  The "Serial Number" column list the serial number of the module.  The "Status" column contains the status of the slot. – physical - indicates that a module is present in the slot. –...
Page 25: Network
Basic Settings 1.3 Network 1.3 Network With the Basic settings:Network dialog you define the source from which the device gets its IP parameters after starting, and you assign the IP parameters and VLAN ID and configure the HiDiscovery access. RM GUI L2E Release 8.0 05/2013...
Page 26 Basic Settings 1.3 Network Figure 9: Network parameters dialog  Under “Mode”, you enter where the device gets its IP parameters:  In the BOOTP mode, the configuration is via a BOOTP or DHCP server on the basis of the MAC address of the device (see on page 38 “Load/Save”).
Page 27 Basic Settings 1.3 Network  The “VLAN” frame enables you to assign a VLAN to the management CPU of the device. If you enter 0 here as the VLAN ID (not included in the VLAN standard version), the management CPU will then be accessible from all VLANs.
Page 28: Software
Basic Settings 1.4 Software 1.4 Software The software dialog enables you to display the software versions in the device and to carry out a software update of the device via file selection, tftp or AutoConfiguration Adapter (ACA). Figure 10: Software Dialog RM GUI L2E Release 8.0 05/2013...
Page 29: View The Software Versions Presenton The Device
Basic Settings 1.4 Software 1.4.1 View the software versions present on the device The dialog shows the existing software versions:  Stored Version: The version of the software stored in the flash memory.  Running Version: The version of the software currently running. 1.4.2 Restoring the Backup Version “Restore”...
Page 30: Tftp Bootcode Update
(for example: tftp://192.168.1.1/device/device_bootrom.bin). Note: If an interrupt occurs during a Bootcode update, the device is unrecoverable. Perform this update under the supervision of the Hirschmann support desk.  Select the “Bootcode“ radio button.
Page 31: Http Software Update
Basic Settings 1.4 Software 1.4.5 HTTP Software Update For a software update via a file selection window, the device software must be on a data carrier that you can access from your PC.  Click on "..." in the "Software Update" frame. ...
Page 32: Port Configuration
Basic Settings 1.5 Port Configuration 1.5 Port Configuration This configuration table allows you to configure each port of the device and also display each port‘s current mode of operation (link state, bit rate (speed) and duplex mode).  The column “Port” shows the number of the device port to which the table entry relates.
Page 33 Basic Settings 1.5 Port Configuration  In the “Manual Cable Crossing (Auto. Conf. off)” column, you assign the connections of a TP port, if “Automatic Configuration” is deactivated for this port. The possible settings are: – enable: the device does not swap the send and receive line pairs of the TP cable for this port (MDI).
Page 34 Basic Settings 1.5 Port Configuration Port type Bit rate Autonegotiation (automatic Port setting Duplex configuration) Optical 100 Mbit/s full Optical 1 Gbit/s Table 6: Port settings for ring ports When you switch the DIP switch for the ring ports, the device sets the required settings for the ring ports in the configuration table.
Page 35: Power Over Ethernet
Basic Settings 1.6 Power over ETHERNET 1.6 Power over ETHERNET Note: The following devices are equipped with Power over Ethernet (PoE) ports:  RS20/30  MS20/30  PowerMICE  OCTOPUS You will learn in this section how these devices operate.
Page 36 Basic Settings 1.6 Power over ETHERNET Frame "Operation":  With “On/Off” you turn the PoE on or off. Frame "Configuration":  With “Send Trap” you can get the device to send a trap in the following cases: – If a value exceeds/falls below the performance threshold. –...
Page 37 Basic Settings 1.6 Power over ETHERNET Figure 11: Power over Ethernet dialog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 38: Load/Save
Basic Settings 1.7 Load/Save 1.7 Load/Save With this dialog you can:  load a configuration,  save a configuration,  enter a URL,  restore the delivery configuration,  use the ACA for configuring,  cancel a configuration change. Figure 12: Load/Save dialog RM GUI L2E Release 8.0 05/2013...
Page 39: Loading A Configuration
Basic Settings 1.7 Load/Save 1.7.1 Loading a Configuration In the “Load” frame, you have the option to  load a configuration saved on the device,  load a configuration stored under the specified URL,  load a configuration stored on the specified URL and save it on the device, ...
Page 40 Basic Settings 1.7 Load/Save Figure 13: Offline Management selection  Revising an existing script  Click on "Load existing script" to load a previously created script for revision in the offline configurator.  Creating a new script  Click on “Create a new script" to create a new script with the aid of the offline configurator.
Page 41 Basic Settings 1.7 Load/Save You can find a description of the settings you can make in the offline configurator interface in the respectively appropriate section of this manual.  Example: Basic Settings Dialog - System Figure 15: Basic Settings Dialog:System in the Offline Configurator RM GUI L2E Release 8.0 05/2013...
Page 42 Basic Settings 1.7 Load/Save Figure 16: Basic Settings Dialog:System in the Graphical User Interface RM GUI L2E Release 8.0 05/2013...
Page 43 Basic Settings 1.7 Load/Save The following applies to the above example: You can find a description of the parameters that can be set in the offline configurator Basic Settings:System dialog. See “System” on page 18.  Once you have set the desired parameters appropriate to your requirements in the offline configurator interface, save the configuration: ...
Page 44 Basic Settings 1.7 Load/Save Once the offline configuration file has loaded successfully, the device returns in the subsequent "Configuration" window an overview of the configuration parameters that have loaded. By clicking in this window you can choose between the following two views: ...
Page 45 Basic Settings 1.7 Load/Save Parameters Meaning Possible values Value Value of the configuration see MIB parameter (MIB variable), which was set by loading the offline configuration file. SNMP error The device's success at  (0) = Success loading the respective ...
Page 46: Saving The Configuration
Basic Settings 1.7 Load/Save 1.7.2 Saving the Configuration In the “Save” frame, you have the option to  save the current configuration on the device,  save the current configuration in binary form in a file under the specified URL, ...
Page 47 Basic Settings 1.7 Load/Save Note: The loading process started by DHCP/BOOTP (see on page 25 “Network”) shows the selection of “from URL & save local” in the “Load” frame. If you get an error message when saving a configuration, this could be due to an active loading process.
Page 48: Url
Basic Settings 1.7 Load/Save Saving configuration for the offline configurator   In the graphical user interface, select the Basic Settings:Load/Save menu item. Figure 21: Saving Configuration Dialog - On the PC (ocf)  To save the current configuration for the offline configurator as an XML configuration file on the PC, check with a click of the mouse the "on the PC (ocf)"...
Page 49: Deleting A Configuration
Basic Settings 1.7 Load/Save Note: The configuration file includes all configuration data, including the passwords for accessing the device. Therefore, pay attention to the access rights on the tftp server. 1.7.4 Deleting a configuration In the "Delete" frame, you have the option to ...
Page 50 Basic Settings 1.7 Load/Save Note: When replacing a device with DIP switches, check the DIP switch settings to ensure that they are the same. Storing the current configuration data in the ACA:  You have the option of transferring the current device configuration, including the SNMP password, to the ACA and the flash memory by using the “to device”...
Page 51: Cancelling A Configuration Change
Basic Settings 1.7 Load/Save Status Meaning wrongMachine The configuration data in external memory originates from a different device type and cannot be read or converted. checksumErr The configuration data is damaged. Table 10: ACAstatus a. In these cases, the ACA status is identical to the status “not in sync”, which sends “Not OK”...
Page 52 Basic Settings 1.7 Load/Save Watchdog IP address  “Watchdog IP address” shows you the IP address of the PC from which you have activated the (watchdog) function. The device monitors the link to the PC with this IP address, checking for interruptions. Buttons ...
Page 53: Restart
Basic Settings 1.8 Restart 1.8 Restart This dialog provides you with the following functions:  initiate a cold start of the device. The device reloads the software from the non-volatile memory, restarts, and performs a self-test. Reload the graphical user interface in your browser to reaccess the device after restarting.
Page 54 Basic Settings 1.8 Restart Figure 22: Restart Dialog Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Help Opens the online help. Table 12: Buttons RM GUI L2E Release 8.0 05/2013...
Page 55: Security
Security 2 Security The “Security” menu contains the dialogs, displays and tables for configuring the security settings:  Password/SNMPv3 access  SNMPv1/v2 access  Telnet/Web access  Port security  RADIUS  Login Banner RM GUI L2E Release 8.0 05/2013...
Page 56: Password / Snmpv3 Access
Security 2.1 Password / SNMPv3 access 2.1 Password / SNMPv3 access This dialog gives you the option of changing the read and read/write passwords for access to the device via the graphical user interface, via the CLI, and via SNMPv3 (SNMP version 3). Set different passwords for the read password and the read/write password so that a user that only has read access (user name “user”) does not know, or cannot guess, the password for read/write access (user name “admin”).
Page 57 Security 2.1 Password / SNMPv3 access – The device allows you to set the “Accept only encrypted requests” function differently for the access with the read password and with the read/write password. – When logging in, the graphical user interface queries the current setting of the device and sends encrypted queries if the device requests this.
Page 58 Security 2.1 Password / SNMPv3 access Note: Use between 5 and 32 characters for the password in SNMPv3, since many applications do not accept shorter passwords. You can block access via a Web browser or Telnet client in a separate dialog. See “Telnet/Web Access”...
Page 59: Snmpv1/V2 Access Settings
Security 2.2 SNMPv1/v2 Access Settings 2.2 SNMPv1/v2 Access Settings With this dialog you can select access via SNMPv1 or SNMPv2. In the default setting, both protocols are activated. You can thus manage the device with Industrial HiVision and communicate with earlier versions of SNMP. Note: To be able to read and/or change the data in this dialog, log in to the graphical user interface with the user name admin and the relevant password.
Page 60 Security 2.2 SNMPv1/v2 Access Settings Binary notation of the mask 255.255.255.240: 1111 1111 1111 1111 1111 1111 1111 0000 mask bits Binary notation of the IP address 172.168.23.20: 1010 1100 1010 1000 0001 0111 0001 0100 The binary representation of the mask with the IP address yields an address range of: 1010 1100 1010 1000 0001 0111 0001 0000 bis...
Page 61 Security 2.2 SNMPv1/v2 Access Settings Figure 24: SNMPv1/v2 Access Dialog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 62: Telnet/Web Access
Security 2.3 Telnet/Web Access 2.3 Telnet/Web Access This dialog allows you to switch on/off the Telnet server and to switch off the Web server on the device. Figure 25: Telnet/Web Access dialog Parameters Meaning Possible values Default setting Telnet server active Activates or deactivates the Telnet service (Telnet access) for this device.
Page 63: Description Of Telnet Access
Security 2.3 Telnet/Web Access 2.3.1 Description of Telnet Access The Telnet server of the device allows you to configure the device using the Command Line Interface (in-band). You can deactivate the Telnet server to inactivate Telnet access to the device. The server is activated in its default setting.
Page 64 Security 2.3 Telnet/Web Access Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 65: Port Security
Security 2.4 Port Security 2.4 Port Security The device allows you to configure each port to help prevent unauthorized access. Depending on your selection, the device checks the MAC address or the IP address of the connected device. In the “Configuration” frame, you set whether the port security works with MAC or with IP addresses.
Page 66 Security 2.4 Port Security Name Meaning Allowed MAC Addresses MAC addresses of the devices with which you allow data exchange on this port. The graphical user interface allows you to enter up to 50 MAC addresses, each separated by a space. After each MAC address you can enter a slash followed by a number identifying an address area.
Page 67 Security 2.4 Port Security Figure 26: Port Security dialog Note: The IP port security operates internally on layer 2. The device internally translates an allowed IP address into an allowed MAC address when you enter the IP address. An ARP request is used for this. Prerequisites for the IP-based port security: –...
Page 68 Security 2.4 Port Security Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 69 Security 2.4 Port Security Wizard – Addresses  The "Wizard" helps you to connect the device ports with one or more desired senders. When you have defined the settings, click "Finish". To save the changes afterwards, click in the "Security:Port Security" dialog.
Page 70 Security 2.4 Port Security Name Meaning Action Action performed by the device after an unauthorized access: Possible values:  none The port continues to forward traffic without notification of the intrusion.  trapOnly The device sends a trap to the active management terminal. ...
Page 71: Login Banner
Security 2.5 Login Banner 2.5 Login Banner This dialog allows you to display a greeting or information text to users before they login to the device. Banner Text  Parameters Meaning Banner Text Specifies the greeting or information text that the device displays in the login dialog of the graphical user interface (GUI) and of the Command Line Interface (CLI).
Page 72 Security 2.5 Login Banner RM GUI L2E Release 8.0 05/2013...
Page 73: Time
Time 3 Time RM GUI L2E Release 8.0 05/2013...
Page 74: Basic Settings
Time 3.1 Basic Settings 3.1 Basic Settings With this dialog you can enter time-related settings independently of the time synchronization protocol selected.  The “System Time (UTC)” displays the time with reference to Universal Time Coordinated. The time displayed is the same worldwide. Local time differences are not taken into account.
Page 75 Time 3.1 Basic Settings Note: When setting the time in zones with summer and winter times, make an adjustment for the local offset, if applicable. The device can also get the SNTP server IP address and the local offset from a DHCP server. Interaction of PTP and SNTP According to PTP (IEEE 1588) and SNTP, both protocols can exist in parallel in the same network.
Page 76 Time 3.1 Basic Settings Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 77: Sntp Configuration
Time 3.2 SNTP configuration 3.2 SNTP configuration The Simple Network Time Protocol (SNTP) enables you to synchronize the system time in your network. The device supports the SNTP client and the SNTP server function. The SNTP server makes the UTC (Universal Time Coordinated) available. UTC is the time relating to the coordinated world time measurement.
Page 78 Time 3.2 SNTP configuration Parameters Meaning Possible values Default setting Client Status Switches the SNTP client on and off. On, Off External Server IP address of the SNTP server from which the Valid IPv4 address 0.0.0.0 Address device periodically requests the system time. Redundant IP address of the SNTP server from which the Valid IPv4 address 0.0.0.0...
Page 79 Time 3.2 SNTP configuration Parameters Meaning Possible Default values setting Server Status Switches the SNTP server on and off. On, Off Anycast Destination IP address, to which the SNTP server of the Valid IPv4 0.0.0.0 Address device sends the SNTP packets (see address table...
Page 80 Time 3.2 SNTP configuration Figure 28: SNTP Dialog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 81: Ptp (Ieee 1588)
Time 3.3 PTP (IEEE 1588) 3.3 PTP (IEEE 1588) Precise time management is required for running time-critical applications via a LAN. The IEEE 1588 standard with the Precision Time Protocol (PTP) describes a procedure that determines the best master clock in a LAN and thus enables precise synchronization of the clocks in this LAN.
Page 82 Time 3.3 PTP (IEEE 1588) Devices with PTP hardware support  Devices with PTP hardware support, which have ports with a time stamp unit, support other modes subject to the version of the time stamp unit.  MS20, MS30 and PowerMICE devices with the modules –...
Page 83 Time 3.3 PTP (IEEE 1588) Figure 29: PTP Global Dialog RM GUI L2E Release 8.0 05/2013...
Page 84: Ptp Global (Ms20/Ms30, Powermice, Mach 104, Mach 1040)
Time 3.3 PTP (IEEE 1588) 3.3.1 PTP Global (MS20/MS30, PowerMICE, MACH 104, MACH 1040) The table below helps you to select the PTP version and the PTP mode. Version Mode Reference clock Device with PTP messages used timestamp Version 1 Version 1 —...
Page 85 Time 3.3 PTP (IEEE 1588) The PTP modes  v1-boundary-clock  v2-boundary-clock-onestep  v2-boundary-clock-twostep  v2-transparent-clock enable you to optimize time division accuracy. You use these dialogs for this purpose  Version 1  Version 2 (Boundary Clock, BC)  Version 2 (Transparent Clock, TC) The PTP modes ...
Page 86 Time 3.3 PTP (IEEE 1588) Value for PTP version and PTP Meaning mode Boundary Clock function based on IEEE1588-2002 v1-boundary-clock (PTPv1). For the MS20, MS30 and PowerMICE devices with realtime modules and for MACH 104 and MACH 1040, see sections “Devices without PTP hardware support”...
Page 87 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting Sync Lower Bottom PTP synchronization threshold 0-999999999 Bound [ns] value, specified in nanoseconds. If the result of (reference time - local time) is lower than the value of the bottom PTP synchronization threshold, then the local clock is deemed as synchronous with the reference clock.
Page 88: Ptp Version 1 (Ms20/Ms30, Powermice, Mach 104, Mach 1040)
Time 3.3 PTP (IEEE 1588) 3.3.2 PTP Version 1 (MS20/MS30, PowerMICE, MACH 104, MACH 1040) You select the PTP version you will use in the Time:PTP:Global dialog. PTP Version 1, Global Settings  Parameters Meaning Possible values Default setting Sync Interval Period for sending synchronization - sec-1 sec-2...
Page 89 Time 3.3 PTP (IEEE 1588) Note: PTPv1 uses as the device UUID 48 bits which are identical to the MAC address of the particular device. Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save".
Page 90: Ptp Version 2 (Bc) (Ms20/Ms30, Powermice, Mach 104, Mach 1040)
Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting PTP Status Port is in the initialization phase. initializing Port is in the faulty mode. Error in faulty the PTP protocol. PTP function is switched off at this disabled port.
Page 91 Time 3.3 PTP (IEEE 1588) Global  Parameters Meaning Possible values Default setting Priority 1 The clock with the lowest priority 1 0-255 becomes the reference clock (grandmaster). Priority 2 If all the relevant values for selecting 0-255 the reference clock are the same for multiple devices, the clock with the lowest priority 2 is selected as the reference clock (grandmaster).
Page 92 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting Parent Port Port UUID of the direct master identity Grandmaster Device UUID of the reference clock identity Table 47: PTP Clock Identities Note: PTPv2 uses as the device UUID 64 bits, consisting of the device's MAC address, between whose No.
Page 93 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting Frequency The device gets the frequency from Traceable a primary UTC reference, e.g. NTP server, GPS. PTP Time Scale The device uses the PTP time scale. According to IEEE 1588, the PTP time scale is the TAI atomic time started on 01.01.1970.
Page 94 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting PTP Status Port is in the initialization phase. initializing Port is in the faulty mode. Error in the faulty PTP protocol. PTP function is switched off at this disabled port.
Page 95 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting P2P Runtime Interval for peer-to-peer runtime Measuring measurements at this port. Interval Prerequisite: You have selected the P2P runtime measuring mechanism on the device itself and on the PTP device connected.
Page 96 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting VLAN The VLAN ID with which the device none, 0 - 4042 none sends PTP frames to this port. Note:  Also take the port's VLAN setting (see on page 127 “VLAN Static”) into account here, in particular whether the VLAN...
Page 97: Ptp Version 2 (Tc) (Ms20/Ms30, Powermice, Mach 104, Mach 1040)
Time 3.3 PTP (IEEE 1588) 3.3.4 PTP Version 2 (TC) (MS20/MS30, PowerMICE, MACH 104, MACH 1040) In strongly cascaded networks in particular, the transparent clock (TC) introduced in PTP Version 2 provides a noticeable increase in precision. The combination with the P2P runtime mechanism (simultaneous runtime measurement at all ports) enables “seamless”...
Page 98 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting Runtime Mechanism for measuring the Measuring message runtime. Enter the same Mechanism mechanism for the PTP device connected to this port. A PTP slave port measures the E2E (end-to-end): runtime of the entire transmission path to the master.
Page 99 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting Syntonize Synchronize frequency. For the MS20, MS30 and PowerMICE devices: Off For devices MACH 104 and MACH 1040: On Synchronizin The device synchronizes its local g local time time with the time received via the PTP.
Page 100 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting VLAN The VLAN ID with which the device none, 0 - 4042 none sends its own frames (like PTP Management frames or P2P frames) to this port. Note:  Also take the port's VLAN setting (see on page 127 “VLAN...
Page 101 Time 3.3 PTP (IEEE 1588) Note: PTPv2 uses as the device UUID 64 bits, consisting of the device's MAC address, between whose No. 3 and No. 4 bytes the values ff and fe are added. A port UUID consists of the device UUID followed by a 16-bit port ID. The device displays UUIDs as a byte sequence in hexadecimal notation.
Page 102 Time 3.3 PTP (IEEE 1588) Parameters Meaning Possible values Default setting P2P Runtime Measured P2P (peer-to-peer) runtime. Prerequisite: You have selected the P2P runtime measuring mechanism. Asymmetry Correction of the runtime asymmetry in ns. A runtime measurement value of x ns corrupted by asymmetrical transmission values corresponds to an asymmetry of x∙2 ns...
Page 103: Switching
Switching 4 Switching The switching menu contains the dialogs, displays and tables for configuring the switching settings:  Switching Global  Filters for MAC Addresses  Rate Limiter  Multicasts  VLAN RM GUI L2E Release 8.0 05/2013...
Page 104: Switching Global
Switching 4.1 Switching Global 4.1 Switching Global Parameters Meaning Possible values Default setting MAC address Display the MAC address of the device (read only) Aging Time (s) Enter the Aging Time in seconds for 15-3825 dynamic MAC address entries. In connection with the router redundancy, select a time ≥...
Page 105 Switching 4.1 Switching Global Parameters Meaning Possible values Default setting Address Number of learned MAC addresses on 1 - 1024 Relearn different ports within a checking interval. If Threshold the number of learned addresses reach this threshold, the device sees this as a relevant event.
Page 106 Switching 4.1 Switching Global No. Automatic Current Detected error Duplex modes Possible causes configuration duplex events (≥ 10 mode after link up) Half duplex CRC error Full duplex None Full duplex Collisions Full duplex Late collisions Full duplex CRC error Half duplex None Half duplex Collisions Half duplex Late collisions...
Page 107 Switching 4.1 Switching Global Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 108: Filter For Mac Addresses
Switching 4.2 Filter for MAC addresses 4.2 Filter for MAC addresses The filter table for MAC addresses is used to display and edit filters. Each row represents one filter. Filters specify the way in which data packets are sent. They are set automatically by the device (learned status) or manually. Data packets whose destination address is entered in the table are sent from the receiving port to the ports marked in the table.
Page 109 Switching 4.2 Filter for MAC addresses Note: For Unicast addresses, the device allows you to include one or no ports in a filter entry. Do not include any ports if you want to create a discard filter entry. Note: The filter table allows you to create up to 100 filter entries for Multicast addresses.
Page 110 Switching 4.2 Filter for MAC addresses Edit Entry  To manually adapt the settings for a table entry, click the "Edit Entry" button. Parameters Meaning Possible Ports This column contains the ports available in the device. Dedicated Ports This column contains the device ports that are assigned to the table entry. ...
Page 111: Rate Limiter
Switching 4.3 Rate Limiter 4.3 Rate Limiter To ensure reliable operation at a high level of traffic, the device allows you to limit the rate of traffic at the ports. Entering a limit rate for each port determines the amount of traffic the device is permitted to transmit and receive.
Page 112: Rate Limiter Settings
Switching 4.3 Rate Limiter 4.3.1 Rate limiter settings  "Ingress Limiter (kbit/s)" allows you to enable or disable the input limiting function for all ports.  "Egress Limiter (Pkt/s)" allows you to enable or disable the broadcast output limiter function at all ports. ...
Page 113 Switching 4.3 Rate Limiter Figure 32: Rate Limiter Dialog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 114: Multicasts
Switching 4.4 Multicasts 4.4 Multicasts 4.4.1 IGMP (Internet Group Management Protocol) With this dialog you can  activate/deactivate the IGMP function globally,  configure the IGMP protocol globally and per port. Figure 33: IGMP Snooping dialog RM GUI L2E Release 8.0 05/2013...
Page 115 Switching 4.4 Multicasts Operation  In this frame you can:  activate/deactivate the IGMP Snooping protocol. Parameters Meaning Possible values Default setting Operation Activate/deactivate IGMP Snooping globally for the device. If IGMP Snooping is switched off:  the device does not evaluate Query and Report packets received, and ...
Page 116 Switching 4.4 Multicasts Parameters Meaning Possible values Default setting Max. Response Enter the time within which the Protocol Version 10 s Time multicast group members are to - 1, 2: 1-25 s respond to a query. - 3: 1-3598 s The multicast group members select a random value within the response time for their response to prevent all...
Page 117 Switching 4.4 Multicasts Multicasts  In this frame you specify how the device transmits packets with  unknown MAC/IP multicast addresses not learned with IGMP Snooping  known MAC/IP multicast addresses learned with IGMP Snooping. Prerequisite: The IGMP Snooping function is activated globally. RM GUI L2E Release 8.0 05/2013...
Page 118: Routing Protocols
Switching 4.4 Multicasts Parameters Meaning Possible Default setting values Unknown Multicasts  Send to Query Ports: Send to Query Send to All The device sends the packets Ports Ports with an unknown MAC/IP Send to All Multicast address to all query Ports ports.
Page 119 Switching 4.4 Multicasts Settings per Port (Table)  With this configuration table you can enter port-related IGMP settings. Parameters Meaning Possible values Default setting Port Module and port numbers to which this entry applies. IGMP enabled Switch IGMP on/off for each port. Switching IGMP off at a port prevents registration for this port.
Page 120 IGMP queries (default automatic setting). This column allows you to also send IGMP report messages to: other selected ports (enable) or connected Hirschmann devices (automatic). Prerequisite: The IGMP snooping function is activated globally. Learned Query Shows at which ports the device has Port received IGMP queries if “disable”...
Page 121: Vlan
Switching 4.5 VLAN 4.5 VLAN VLAN contains dialogs and attributes for configuring and monitoring the VLAN function in accordance with the IEEE 802.1Q standard. 4.5.1 VLAN Global With this dialog you can:  display VLAN parameters  activate/deactivate the VLAN 0 transparent mode ...
Page 122 IEEE 802.1Q. Note: When using the “Transparent Mode” in this way, note the following:  For RS20/RS30/RS40, MS20/MS30, RSR20/RSR30, MACH 100, MACH 1000 and OCTOPUS: In “Transparent mode”, the devices ignore the port VLAN ID set. Set the VLAN membership of the ports of VLAN 1 to U (Untagged) or T (Tagged), (see on page 127 “VLAN...
Page 123 Switching 4.5 VLAN Parameters Meaning Possible values Default setting Mode Selecting the VLAN Mode. Independent Independent “Independent VLAN” subdivides the VLAN, VLAN forwarding database (see on page 108 “Filter Shared VLAN for MAC addresses”) virtually into one independent forwarding database per VLAN. The device cannot assign data packets with a destination address in another VLAN and it floods them to all the ports of the VLAN.
Page 124 Switching 4.5 VLAN Figure 34: VLAN Global dialog Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Clear… Resets the VLAN settings of the device to the state on delivery. Caution: You block your access to the device if you have changed the VLAN ID for the management functions of the device in the Basic...
Page 125: Current Vlan
Switching 4.5 VLAN 4.5.2 Current VLAN This dialog gives you the option of displaying the current VLAN parameters The Current VLAN table shows all  manually configured VLANs  VLANs configured via redundancy mechanisms The Current VLAN Table is only used for display purposes. You can make changes to the entries in the VLAN:Static dialog (see on page 127 “VLAN Static”).
Page 126 Switching 4.5 VLAN Figure 35: Current VLAN dialog Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Help Opens the online help. Table 78: Buttons RM GUI L2E Release 8.0 05/2013...
Page 127: Vlan Static
Switching 4.5 VLAN 4.5.3 VLAN Static With this dialog you can:  Create VLANs  Assign names to VLANs  Assign ports to VLANs and configure them  Delete VLANs Parameters Meaning Possible values Default setting VLAN ID Displays the ID of up to 255 1-4042 VLANs that are simultaneously possible.
Page 128 Switching 4.5 VLAN Figure 36: VLAN Static Dialog Note: When configuring the VLAN, ensure that the management station still has access to the device after the VLAN configuration is saved. Connect the management station to a port that is a member of the VLAN that is selected as the management VLAN.
Page 129 Note: In a redundant ring with VLANs, you should only operate devices whose software version supports VLANs:  RS2 xx/xx (from rel. 7.00)  RS2-16M  RS20, RS30, RS40 (with software variants L2E, L2P)  MICE (from rel. 3.0)  PowerMICE  MS20, MS30 ...
Page 130: Port
Switching 4.5 VLAN 4.5.4 Port With this dialog you can:  assign ports to VLANs  define the Acceptable Frame Type  activate/deactivate Ingress Filtering Parameters Meaning Possible values Default setting Port Port to which this entry applies. Port VLAN ID Specifies which VLAN the port assigns All allowed a received, untagged data packet to.
Page 131 Switching 4.5 VLAN Parameters Meaning Possible values Default setting Ingress Filtering Specifies whether the port evaluates on, off the received tags. DVLAN Tag Mode - normal: The port is not involved in normal, normal DVLAN tagging. core, access - core: The port sends a double- tagged frame with the Ether type selected under “Double VLAN Ether type”.
Page 132 Switching 4.5 VLAN Figure 37: dialog Switching:VLAN:Port Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 133: Qos/Priority
QoS/Priority 5 QoS/Priority The device enables you to set  how it evaluates the QoS/prioritizing information of incoming data packets: – VLAN priority based on IEEE 802.1Q/ 802.1D (Layer 2) – Type of Service (ToS) or DiffServ (DSCP) for IP packets (Layer 3) ...
Page 134: Global
QoS/Priority 5.1 Global 5.1 Global With this dialog you can:  enter the VLAN priority for management packets in the range 0 to 7 (default setting: 0). In order for you to have full access to the management of the device, even when there is a high network load, the device enables you to prioritize management packets.
Page 135 QoS/Priority 5.1 Global  display the maximum number of queues possible per port. The device supports 4 (8 for MACH 4000, MACH 104, MACH 1040 and PowerMICE) priority queues (traffic classes in compliance with IEEE 802.1D).  select the trust mode globally. You use this to specify how the device handles received data packets that contain priority information.
Page 136 QoS/Priority 5.1 Global Note: Changing the global setting for „Trust Mode“ and clicking “Set“ will set all ports‘ settings at once. You can then modifiy each port's settings individually. Changing the global setting again will overwrite the individual port settings. Traffic class New VLAN priority New VLAN priority...
Page 137 QoS/Priority 5.1 Global Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 138: Port Configuration
QoS/Priority 5.2 Port Configuration 5.2 Port Configuration This dialog allows you to configure the ports. You can:  assign a port priority to a port. Parameter Meaning Module.Port Port identification using module and port numbers of the device, e.g. 2.1 for port one of module two. Port priority Enter the port priority.
Page 139: Entering The Port Priority
QoS/Priority 5.2 Port Configuration 5.2.1 Entering the port priority  Double-click a cell in the “Port priority” column and enter the priority (0-7). According to the priority entered, the device assigns the data packets that it receives at this port to a traffic class (see table 87).
Page 140: D/P Mapping
QoS/Priority 5.3 802.1D/p mapping 5.3 802.1D/p mapping The 802.1D/p mapping dialog allows you to assign a traffic class to every VLAN priority. Figure 40: 802.1D/p Mapping dialog  Enter the desired value from 0 to 3 in the Traffic Class field for every VLAN priority.
Page 141 QoS/Priority 5.3 802.1D/p mapping Port priority Traffic class (default setting) IEEE 802.1D traffic type Standard Excellent effort (business critical) Controlled load (streaming multimedia) Video, < 100 ms of latency and jitter Voice, < 10 ms of latency and jitter Network control reserved traffic Table 89: Assigning the VLAN priority to the 4 traffic classes Note: Network protocols and redundancy mechanisms use the highest traffic class 3.
Page 142: Ip Dscp Mapping
QoS/Priority 5.4 IP DSCP mapping 5.4 IP DSCP mapping The IP DSCP mapping table allows you to assign a traffic class to every DSCP value.  Enter the desired value from 0 to 3 in the Traffic Class field for every DSCP value (0-63).
Page 143 QoS/Priority 5.4 IP DSCP mapping  Assured Forwarding (AF): Provides a differentiated schema for handling different data traffic (RFC 2597).  Default Forwarding/Best Effort: No particular prioritizing. DSCP value DSCP name Traffic class (default setting) Best Effort /CS0 9,11,13,15 10,12,14 AF11,AF12,AF13 17,19,21,23 18,20,22...
Page 144 QoS/Priority 5.4 IP DSCP mapping Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Help Opens the online help. Table 92: Buttons (cont.) RM GUI L2E Release 8.0 05/2013...
Page 145: Redundancy
Redundancy 6 Redundancy Under Redundancy you will find the dialogs and views for configuring and monitoring the redundancy functions:  Ring Redundancy  Ring/Network coupling  Spanning Tree Note: The “Redundancy Configuration User Manual” document contains detailed information that you require to select the suitable redundancy procedure and configure it.
Page 146: Ring Redundancy
 Within a HIPER-Ring, you can use any combination of the following devices: – RS2-./. – RS2-16M – RS2-4R – RS20, RS30, RS40 – RSR20, RSR30 – OCTOPUS – MICE – MS20, MS30 – PowerMICE – MACH 100 –...
Page 147 Redundancy 6.1 Ring Redundancy  Create new Ring Redundancies.  Configure existing Ring Redundancies.  Enable/disable the Ring Manager function.  Receive Ring information.  Delete the Ring Redundancy. Note: Only one Ring Redundancy method can be enabled on one device at any one time.
Page 148: Configuring The Hiper-Ring
Note: As an alternative to using software to configure the HIPER-Ring, with devices RS20/30/40 and MS20/30 you can also use DIP switches to enter a number of settings on the devices. You can also use a DIP switch to enter a setting for whether the configuration via DIP switch or the configuration via software has priority.
Page 149 Redundancy 6.1 Ring Redundancy Parameter Meaning Ring port X.X operation Display in “Operation” field: active: This port is switched on and has a link. inactive: This port is switched off or it has no link. Ring Manager Status Status information, no input possible: Active (redundant line): The redundant line was closed because a data line or a network component within the ring failed.
Page 150 Redundancy 6.1 Ring Redundancy Figure 42: Selecting ring redundancy, entering ring ports, enabling/disabling ring manager and selecting ring recovery. Note: Deactivate the Spanning Tree protocol (STP) for the ports connected to the redundant ring, because the Spanning Tree and the Ring Redundancy work with different reaction times (Redundancy:Spanning Tree:Port).
Page 151 Redundancy 6.1 Ring Redundancy Note: When activating the HIPER-Ring function via software or DIP switches, the device sets the corresponding settings for the pre-defined ring ports in the configuration table (transmission rate and mode). If you switch off the HIPER-Ring function, the ports, which are changed back into normal ports, keep the ring port settings.
Page 152: Configuring The Mrp-Ring
Redundancy 6.1 Ring Redundancy 6.1.2 Configuring the MRP-Ring Note: To configure an MRP-Ring, you set up the network to meet your demands. For the ring ports, select the following basic settings in the Basic Settings:Port Configuration dialog: Port type Bit rate Autonegotiation Port setting Duplex...
Page 153 Configuration advanced mode for fast switching times. Otherwise you activate the advanced mode. Note: All Hirschmann devices that support the MRP-Ring also support the advanced mode. Operation When you have configured all the parameters for the MRP-Ring, you switch the operation on with this setting.
Page 154 Redundancy 6.1 Ring Redundancy Figure 43: Selecting MRP-Ring version, entering ring ports and enabling/disabling ring manager Note: For all devices in an MRP-Ring, activate the MRP compatibility in the Redundancy:Spanning Tree:Global dialog if you want to use RSTP in the MRP-Ring. If this is not possible, perhaps because individual devices do not support the MRP compatibility, you deactivate the Spanning Tree protocol on the ports connected to the MRP-Ring.
Page 155 Redundancy 6.1 Ring Redundancy Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 156: Ring/Network Coupling
Use the ring/network coupling to redundantly couple an existing ring (HIPER- Ring, MRP, Fast HIPER-Ring) to another network or another ring. Make sure the coupling partners are Hirschmann devices. Note: Two-Switch coupling Make sure you have configured a ring (HIPER-Ring, MRP, Fast HIPER-Ring) before setting up the ring/network coupling.
Page 157 STAND-BY switch type RS2-./. DIP switch RS2-16M DIP switch RS20/RS30/RS40 Selectable: DIP switch and software setting MS20/MS30 Selectable: DIP switch and software setting Table 99: Overview of the STAND-BY switch types Depending on the device and model, set the STAND-BY switch in...
Page 158 Redundancy 6.2 Ring/Network Coupling Figure 44: Software configuration of the STAND-BY switch Depending on the STAND-BY DIP switch position, the dialog displays those configurations that are not possible as grayed-out. If you want to select one of these grayed-out configurations, change the STAND-BY DIP switch on the device to the other position.
Page 159 Redundancy 6.2 Ring/Network Coupling Ring/Network Coupling dialog  Parameter Meaning Selecting the Depending on your local conditions, select “One-Switch coupling”, configuration “Two-Switch coupling, Slave”, “Two-Switch coupling, Master”, “Two- Switch coupling with control line, Slave” or “Two-Switch coupling with control line, Master”. These options are presented as buttons from left to right.
Page 160 Redundancy 6.2 Ring/Network Coupling Parameter Meaning Operation Here you switch the Ring/Network coupling for this device on or off Information If the device is a ring manager: The displays in this frame mean: “Redundancy working”: When a component of the ring is down, the redundant line takes over its function.
Page 161 Redundancy 6.2 Ring/Network Coupling Note: If you are operating the Ring Manager and two-Switch coupling functions at the same time, there is the possibility of creating a loop. Note: The Ring/Network coupling operates with test packets (Layer 2 frames). The devices subscribed always send their test packets VLAN- tagged, including the VLAN ID 1 and the highest VLAN priority 7.
Page 162: Spanning Tree
Redundancy 6.3 Spanning Tree 6.3 Spanning Tree Under Spanning Tree you will find the dialogs and views for configuring and monitoring of the Spanning Tree function according to the IEEE 802.1Q- 2005 standard, Rapid Spanning Tree (RSTP). Note: The Spanning Tree Protocol is a protocol for MAC bridges. For this reason, the following description uses the term bridge for Switch.
Page 163 Redundancy 6.3 Spanning Tree Note: RSTP reduces a layer 2 network topology with redundant paths into a tree structure (Spanning Tree) that does not contain any more redundant paths. One of the Switches takes over the role of the root bridge here. The maximum number of devices permitted in an active branch (from the root bridge to the tip of the branch) is specified by the variable Max Age for the current root bridge.
Page 164: Global
Redundancy 6.3 Spanning Tree Note: The following text uses the term Spanning Tree (STP) to describe settings or behavior that applies to STP, RSTP or MSTP. 6.3.1 Global With this dialog you can:  switch the Rapid Spanning Tree Protocol on/off, ...
Page 165: Global Spanning Tree
Redundancy 6.3 Spanning Tree The following tables show the selection options and default settings, and information on the global Spanning Tress settings for the bridge. Parameter Meaning Possible values Default setting Frame Switches the Spanning Tree function for „Function“ this device “On” or “Off”. If you switch off the Spanning Tree for a device globally, the device floods the Spanning Tree packets received like...
Page 166 Redundancy 6.3 Spanning Tree Parameter Meaning Possible values Default setting Hello Time Sets the Hello Time. 1 - 2 The local Hello Time is the time in seconds between the sending of two configuration messages (Hello packets). If the local device has the root function, the other devices in the entire network take over this value.
Page 167 Redundancy 6.3 Spanning Tree Parameter Meaning Possible values Default setting Switches the MRP compatibility on/off. On, Off compatibilit MRP compatibility enables RSTP to be used within an MRP-Ring and when coupling RSTP segments to an MRP- Ring. The prerequisite is that all devices in the MRP-Ring must support MRP compatibility.
Page 168 Redundancy 6.3 Spanning Tree Parameter Meaning Possible values Default setting Column Information on the device that is currently „Root“ the root bridge Bridge ID The Bridge ID of the current root bridge. The format is ppppp / mm mm mm mm mm mm, with: ppppp: priority (decimal) and mm: the respective byte of the MAC address (hexadecimal).
Page 169 Redundancy 6.3 Spanning Tree If you have activated the “MRP Compatibility” function, the device displays the “Information” frame with additional information on MRP compatibility: Parameter Meaning Possible values Default setting Information If you have activated the MRP Message with bridge compatibility (RSTP over MRP) and one of ID or empty.
Page 170 Redundancy 6.3 Spanning Tree Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 171 Redundancy 6.3 Spanning Tree If you are using the device in a Multiple Spanning Tree (MSTP) environment, the device only participates in the Common Spanning Tree (CST) instance. This chapter of the manual also uses the term Global MST instance to describe this general case.
Page 172 Redundancy 6.3 Spanning Tree Parameters Meaning Possible values Default setting Port path costs Enter the path costs with regard to 0 - 200000000 the global MSTI (IST) to indicate (automati preference for redundant paths. If cally) the value is 0, the Switch automatically calculates the path costs for the global MSTI (IST) depending on the transmission rate.
Page 173 Redundancy 6.3 Spanning Tree Parameters Meaning Possible values Default setting Auto Edge Port The device only considers the Auto active (box selected), active Edge Port setting when the Admin inactive (box empty) Edge Port parameter is deactivated. If Auto Edge Port is active, after a link is set up the device sets the port to the forwarding status after 1.5 ∙...
Page 174 Redundancy 6.3 Spanning Tree condition (static topology), this information is identically to the designated information. If a port has no link, or if it has not received any STP-BDPUs for the current MSTI, the device displays the values that the port would send as a designated port.
Page 175 Redundancy 6.3 Spanning Tree Parameters Meaning Possible values Default setting Root Guard The “Root Guard” setting is only relevant for active (box inactiv ports with the STP role designated. selected), If such a port receives an STP-BPDU with inactive (box better path information on the root that what empty) the device knows, the device discards the...
Page 176 Redundancy 6.3 Spanning Tree Parameters Meaning Possible values Default setting Loop Guard The “Loop Guard” setting is only meaningful active (box inactiv for ports with the STP role alternate, selected), backup or root. If the “Loop Guard” setting is inactive (box active and the port has not received any STP- empty) BPDUs for a while, the device sets the port to...
Page 177 Redundancy 6.3 Spanning Tree Parameters Meaning Possible values Default setting Transitions from Counts how often the device has set the port 0 - 4294967295 Loop Status out of the loop status (“Loop Status” column true). BPDU Guard The “BPDU Guard Effect” status is only true, false Effect (read only) relevant for edge ports (ports with the “Admin...
Page 178 Redundancy 6.3 Spanning Tree Figure 47: Multiple Spanning Tree dialog, Port, Guards tab Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 179: Diagnostics
Diagnostics 7 Diagnostics The diagnostics menu contains the following tables and dialogs:  Syslog  Trap Log  Ports (statistics, utilization, SFP modules)  Topology Discovery  Port Mirroring  Device Status  Signal Contact  Alarms (Traps)  Report (log file, system information) ...
Page 180: Syslog
Diagnostics 7.1 Syslog 7.1 Syslog The “Syslog” dialog enables you to additionally send to one or more syslog servers, the events that the device writes to its trap log or event log. You can switch the function on or off, and you can manage a list of up to 8 syslog server entries.
Page 181 Diagnostics 7.1 Syslog Parameters Meaning Possible values Default setting Log SNMP Set Creates events for the syslog for SNMP Active inactive Request Set requests with the specified inactive “severity”. Severity (for logs of Specifies the level for which the device debug notice SNMP Set...
Page 182 Diagnostics 7.1 Syslog Note: When you activate the logging of SNMP requests, the device sends these as events with the preset severity notice to the list of syslog servers. The preset minimum severity for a syslog server entry is critical. To send SNMP requests to a syslog server, you have a number of options to change the default settings.
Page 183 Diagnostics 7.1 Syslog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 184: Trap Log
Diagnostics 7.2 Trap log 7.2 Trap log The table lists the logged events with a time stamp. You update the content of the trap log via the “Reload” button. You delete the content of the trap log via the “Clear” button. Figure 49: Trap log table Parameters Meaning...
Page 185 Diagnostics 7.2 Trap log You have the option to also send the logged events to one or more syslog servers (see on page 180 “Syslog”). Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 186: Ports
Diagnostics 7.3 Ports 7.3 Ports The port menu contains displays and tables for the individual ports:  Statistics table  Utilization  SFP Modules 7.3.1 Statistics table This table shows you the contents of various event counters. In the Restart menu item, you can reset the event counters to zero using "Warm start", "Cold start"...
Page 187 Diagnostics 7.3 Ports Figure 50: Port statistics, table Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Reset port counters Resets the counter for the port statistics to 0. Help Opens the online help.
Page 188: Network Load (Utilization)
Diagnostics 7.3 Ports 7.3.2 Network load (Utilization) This table displays the network load of the individual ports. The network load is the data quantity that the port received in the previous 30 s, compared to the maximum possible data quantity at its currently configured data rate. The upper and lower thresholds work together controlling utilization alarms for a port.
Page 189 Diagnostics 7.3 Ports Parameters Meaning Possible values Default setting Number of the device port to which the Port 1.1, 1.2, 1.3 table entry relates. etc. Utilization [%] Shows the current utilization in percent 0.00 0.00..100.00 which the device port has received within the last 30 s.
Page 190: Sfp Transceiver
Diagnostics 7.3 Ports Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 191 Diagnostics 7.3 Ports Figure 52: SFP Modules dialog Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Help Opens the online help. Table 122:Buttons RM GUI L2E Release 8.0 05/2013...
Page 192: Topology Discovery
Diagnostics 7.4 Topology Discovery 7.4 Topology Discovery This dialog enables you to activate/deactivate the function for Topology Recognition (LLDP) and to display the LLDP information received in the form of a table. 7.4.1 LLDP Information from Neighbor Devices The table on the “LLDP” tab page shows you the collected LLDP information for neighboring devices.
Page 193 Diagnostics 7.4 Topology Discovery Figure 53: Topology Discovery If several devices are connected to one port, for example via a hub, the table will contain one line for each connected device. When devices both with and without an active topology discovery function are connected to a port, the topology table hides the devices without active topology discovery.
Page 194: Port Mirroring
Diagnostics 7.5 Port Mirroring 7.5 Port Mirroring The MACH4002 24/48 + 4G and the Power MICE support up to 8 ports. The port mirroring function enables you to review the data traffic from a group of ports on the device for diagnostic purposes (N:1). The device forwards (mirrors) the data for these ports to another port.
Page 195 Diagnostics 7.5 Port Mirroring The PowerMICE and MACH4000 devices use the destination port for the port mirroring task exclusively. The source port forwards and receives traffic as normal.  Select the source ports whose data traffic you want to review from the physical ports list by checkmarking the relevant boxes.
Page 196 Diagnostics 7.5 Port Mirroring Figure 54: dialog Diagnostics:Port Mirroring N:1 Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 197: Device Status
Diagnostics 7.6 Device Status 7.6 Device Status The device status provides an overview of the overall condition of the device. Many process visualization systems record the device status for a device in order to present its condition in graphic form. The device displays its current status as "Error"...
Page 198 Diagnostics 7.6 Device Status The events which can be selected are: Name Meaning “Device Status” The device determines this status from the individual monitoring results. Frame It can have the values “Error” or “OK”. “Trap Configuration” Frame Generate Trap Activate this setting so the device sends a trap if it changes its device status.
Page 199 Diagnostics 7.6 Device Status a. The configurations are non-matching if only one file exists or the two files do not have the same content. Note: With a non-redundant voltage supply, the device reports the absence of a supply voltage. If you do not want this message to be displayed, feed the supply voltage over both inputs or switch off the monitoring (see on page 200 “Signal...
Page 200: Signal Contact
Diagnostics 7.7 Signal contact 7.7 Signal contact The signal contacts are used for  controlling external devices by manually setting the signal contacts,  monitoring the functions of the device,  reporting the device state of the device. 7.7.1 Manual Setting ...
Page 201: Function Monitoring
Diagnostics 7.7 Signal contact 7.7.2 Function monitoring  Select the tab “Signal contact 1” or “Signal contact 2” (for devices with two signal contacts).  In the “Mode Signal contact” box, you select the “Monitoring correct operation” mode. In this mode, the signal contacts monitor the functions of the device, thus enabling remote diagnosis.
Page 202: Device Status
Diagnostics 7.7 Signal contact  If the device is part of a redundant ring: the elimination of the reserve redundancy (i.e. the redundancy function did actually switch on), (see on page 146 “Ring Redundancy”). Select “Monitor” for the ring redundancy if the signal contact is to report the elimination of the reserve redundancy in the redundant ring.
Page 203: Configuring Traps
Diagnostics 7.7 Signal contact 7.7.4 Configuring Traps  Select generate Trap, if the device is to create a trap as soon as the position of a signal contact changes when function monitoring is active. Figure 56: Signal Contact Dialog The Signal Contact dialog contains 1 tab (“Signal contact 1”) if the device has 1 signal contact.
Page 204 Diagnostics 7.7 Signal contact Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Help Opens the online help. Table 127:Buttons (cont.) RM GUI L2E Release 8.0 05/2013...
Page 205: Alarms (Traps)
This dialog allows you to determine which events trigger an alarm (trap) and where these alarms should be sent. The following device types support 10 trap destinations:  RS20, RS30, RS40  MS20, MS30  In the “Configuration” frame, select the trap categories from which you want to send traps.
Page 206 Diagnostics 7.8 Alarms (Traps) Name Meaning Chassis Summarizes the following events:  The status of a supply voltage has changed (see the System dialog).  The status of the signal contact has changed. To take this event into account, you activate “Create trap when status changes”...
Page 207 Diagnostics 7.8 Alarms (Traps) Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 208: Report
Diagnostics 7.9 Report 7.9 Report The following reports are available for the diagnostics:  System Information (see on page 210 “System Information”). The System Information is an HTML file with system-relevant data. The device displays the system information in an own dialog. ...
Page 209 Diagnostics 7.9 Report The device creates the file name of the applet automatically in the format <device type><software variant><software version)>_<software revision of applet>.jar, e.g. for a device of type PowerMICE with software variant L3P: “pmL3P06000_00.jar”. File Name Format Comments Log file event_log.html HTML System information...
Page 210: System Information
Diagnostics 7.9 Report Figure 58: Report dialog 7.9.1 System Information The System Information is an HTML file with system-relevant data. Buttons  Button Meaning Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device. Search Opens the "Search"...
Page 211: Event Log
Diagnostics 7.9 Report Button Meaning Save Opens the "Save" dialog. The dialog allows you to save the log file in HTML format on your PC. Help Opens the online help. Table 131:Buttons (cont.) 7.9.2 Event Log The Event Log is an HTML file in which the device writes important device- internal events.
Page 212: Ip Address Conflict Detection
Diagnostics 7.10 IP address conflict detection 7.10 IP address conflict detection This dialog allows you to detect address conflicts the device is having with its own IP address and rectify them (Address Conflict Detection, ACD).  In “Status”, select the operating mode for the IP address conflict detection (see table 133).
Page 213 Diagnostics 7.10 IP address conflict detection  In the table, the device logs IP address conflicts with its IP address. The device logs the following data for each conflict:  the time („Timestamp“ column)  the conflicting IP address („IP Address“ column) ...
Page 214: Mac Notification
Diagnostics 7.11 MAC Notification 7.11 MAC Notification MAC notification, also known as MAC address change notification, tracks users on a network by storing the MAC address change activity. When the switch learns or removes a MAC address, the device sends an SNMP trap to a configured trap destination.
Page 215: Configuration
Diagnostics 7.11 MAC Notification 7.11.2 Configuration Parameters Meaning Intervals [s] Defines the interval, in seconds, between notifications. The device buffer contains up to 20 addresses. If the buffer is full before the interval expires, then the device sends a trap to the management station. Possible values: ...
Page 216 Diagnostics 7.11 MAC Notification Parameters Meaning Mode Defines when the device sends a trap for MAC address events on a specific interface. Possible values:  The device sends notifications for entries added to the FDB.  remove The device sends notifications for entries removed from the FDB. ...
Page 217: Self Test
Diagnostics 7.12 Self Test 7.12 Self Test With this dialog you can:  activate/deactivate the RAM test for a cold start of the device. Deactivating the RAM test shortens the booting time for a cold start of the device. Default setting: activated. ...
Page 218 Diagnostics 7.12 Self Test Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 219: Service Mode
7.13 Service Mode 7.13 Service Mode The following devices support the service mode: RS20/RS30/RS40 and MS20/MS30. The service mode enables you to divide the device into 2 transmission areas. You can thus, for example, perform test or service configurations in the field area of a network while the ongoing operation continues in the backbone area.
Page 220: Activating The Service Mode
Diagnostics 7.13 Service Mode 7.13.1 Activating the service mode Prerequisites: – HIPER-Ring ports are defined (HIPER-Ring or MRP-Ring). – The supply voltage is redundant at P1 and P2. Note: If there is no redundant voltage when activating the service mode (by clicking on “Set”...
Page 221 Diagnostics 7.13 Service Mode Figure 61: Service Mode dialog - mode activated  Deactivate the redundant supply voltage. The service mode is now activated, which the device indicates with a checkmark in the “Status” field. Note: Deactivate the service mode (see below) when saving the device configuration (dialog: Basics:Load/Save:Save:On the Switch).
Page 222: Deactivating The Service Mode
Diagnostics 7.13 Service Mode 7.13.2 Deactivating the service mode  Reactivate the redundant voltage. The service mode is now deactivated.  Select the Diagnostics:Service Mode dialog.  Deactivate “Mode”.  Click “Set” to deactivate the service mode so that the device will no longer switch to the service mode if the redundant voltage supply is lost.
Page 223: Advanced
Advanced 8 Advanced The menu contains the dialogs, displays and tables for:  DHCP Relay Agent  Industry Protocols  Command Line RM GUI L2E Release 8.0 05/2013...
Page 224: Dhcp Relay Agent
Advanced 8.1 DHCP Relay Agent 8.1 DHCP Relay Agent This dialog allows you to configure the DHCP relay agent.  Enter the DHCP server IP address. If one DHCP server is not available, you can enter up to 3 additional DHCP server IP addresses so that the device can change to another DHCP server.
Page 225  In the “Option 82 on” column in the table, you switch this function on/off for each port.  In the "Hirschmann Device" column, you check the ports connected to a Hirschmann device. Note: The DHCP relay function requires a minimum of 2 ports. Connect a port to the DHCP client and a port to the DHCP server.
Page 226 Advanced 8.1 DHCP Relay Agent Figure 63: DHCP Relay Agent dialog Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 227: Industrial Protocols
Advanced 8.2 Industrial Protocols 8.2 Industrial Protocols The “Industry Protocols” menu allows you to configure the following protocols  the PROFINET protocol  the EtherNet/IP protocol  the IEC61850 MMS protocol Detailed information on industrial protocols and PLC configuration is contained in the User Manual "Industrial Protocols“.
Page 228 Advanced 8.2 Industrial Protocols PROFINET Port settings:  Select the port for which you want to set the DCP mode in detail, and in the column DCP Mode, select – none: The device sends received DCP frames. However, the CPU does not process them yet, it still generates DPC frames.
Page 229 Advanced 8.2 Industrial Protocols Settings for the PLC:  Configure the PLC as described in the “Industry Protocols” user manual. Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save".
Page 230: Ethernet/Ip
Advanced 8.2 Industrial Protocols 8.2.2 EtherNet/IP This dialog allows you to activate the EtherNet/IP protocol. To integrate this in a control system, perform the following steps. General settings:  In the Switching:Multicast:IGMP dialog, check whether IGMP is activated (see on page 114 “IGMP (Internet Group Management Protocol)”).
Page 231: Iec61850 Mms Protocol (Rsr, Mach 1000)
Advanced 8.2 Industrial Protocols 8.2.3 IEC61850 MMS Protocol (RSR, MACH 1000) The IEC 61850 is a standardized industrial communication protocol from the International Electrotechnical Commission (IEC). For example, automatic switching equipment uses this protocol when communicating with power station equipment. The packet orientated protocol defines a uniform communication language based on the transport protocol, TCP/IP.
Page 232 Advanced 8.2 Industrial Protocols Figure 64: dialog Advanced:Industrial Protocols:IEC61850 Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes, open the Basic Settings:Load/Save dialog, select the location to save the configuration, and click "Save". Reload Updates the fields with the values that are saved in the volatile memory (RAM) of the device.
Page 233: Software Dip Switch Overwrite (Mice, Powermice And Rs)
Advanced 8.3 Software DIP Switch overwrite (MICE, PowerMICE and RS) 8.3 Software DIP Switch overwrite (MICE, PowerMICE and RS) This feature introduces the possibility to disable the DIP switches using software. Parameter Meaning Value range Default setting Operation Activates/deactivates the DIP On, Off switches physically located on the device.
Page 234 Advanced 8.3 Software DIP Switch overwrite (MICE, PowerMICE and RS) Figure 65: dialog Advanced:DIP-Switch Buttons  Button Meaning Transfers the changes to the volatile memory (RAM) of the device. To permanently save the changes afterwards, you open the Basic dialog and click "Save". Settings:Load/Save Reload Updates the fields with the values that are saved in the volatile memory...
Page 235: Command Line
Advanced 8.4 Command Line 8.4 Command Line This window enables you to access the Command Line Interface (CLI) using the Web interface. You will find detailed information on CLI in the “Command Line Interface” reference manual. Buttons  Button Meaning Help Opens the online help.
Page 236 Advanced 8.4 Command Line RM GUI L2E Release 8.0 05/2013...
Page 237: A Appendix
Appendix A Appendix RM GUI L2E Release 8.0 05/2013...
Page 238: Technical Data
Appendix A.1 Technical Data A.1 Technical Data Switching Size of MAC address table 8,000 (16,000 for PowerMICE and (incl. static filters) MACH 4000) Max. number of statically configured MAC address filters Max. number of MAC address filters learnable via GMRP/IGMP Snooping Max.
Page 239: List Of Rfcs
Appendix A.2 List of RFCs A.2 List of RFCs RFC 768 RFC 783 TFTP RFC 791 RFC 792 ICMP RFC 793 RFC 826 RFC 951 BOOTP RFC 1157 SNMPv1 RFC 1155 SMIv1 RFC 1212 Concise MIB Definitions RFC 1213 MIB2 RFC 1493 Dot1d RFC 1643...
Page 240 Appendix A.2 List of RFCs RFC 2579 Textual Conventions for SMI v2 RFC 2580 Conformance statements for SMI v2 RFC 2618 RADIUS Authentication Client MIB RFC 2620 RADIUS Accounting MIB RFC 2674 Dot1p/Q RFC 2818 HTTP over TLS RFC 2851 Internet Addresses MIB RFC 2865 RADIUS Client...
Page 241: Underlying Ieee Standards
Appendix A.3 Underlying IEEE Standards A.3 Underlying IEEE Standards IEEE 802.1AB Topology Discovery (LLDP) IEEE 802.1af Power over Ethernet IEEE 802.1D-1998, Media access control (MAC) bridges (includes IEEE 802.1p Priority IEEE 802.1D-2004 and Dynamic Multicast Filtering, GARP, GMRP) IEEE 802.1Q-2005 Spanning Tree (STP), Rapid Spanning Tree (RSTP), Multiple Spanning Tree (MSTP) IEEE 802.3-2002...
Page 242: Underlying Iec Norms
Appendix A.4 Underlying IEC Norms A.4 Underlying IEC Norms IEC 62439 High availability automation networks; especially: Chap. 5, MRP – Media Redundancy Protocol based on a ring topology RM GUI L2E Release 8.0 05/2013...
Page 243: Literature References
Hirschmann “Installation” user manual  Hirschmann “Basic Configuration” user manual  Hirschmann “Redundancy Configuration” user manual  Hirschmann “Routing Configuration” user manual  Hirschmann “GUI Graphical User Interface” reference manual  Hirschmann “Command Line Interface” reference manual RM GUI L2E Release 8.0 05/2013...
Page 244: Copyright Of Integrated Software
Appendix A.6 Copyright of Integrated Software A.6 Copyright of Integrated Software A.6.1 Bouncy Castle Crypto APIs (Java) The Legion Of The Bouncy Castle Copyright (c) 2000 - 2004 The Legion Of The Bouncy Castle (http://www.bouncycastle.org) Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies...
Page 245: Broadcom Corporation
Appendix A.6 Copyright of Integrated Software A.6.2 Broadcom Corporation (c) Copyright 1999-2012 Broadcom Corporation. All Rights Reserved. RM GUI L2E Release 8.0 05/2013...
Page 246 Appendix A.6 Copyright of Integrated Software RM GUI L2E Release 8.0 05/2013...
Page 247: B Index
Index B Index 802.1D/p mapping Grandmaster ACA (AutoConfiguration Adapter) 38, 206 Hello Time 166, 168 Acceptable Frame Types HIPER-Ring 129, 148, 148 Address Conflict Detection (ACD) HIPER-Ring (source for alarms) Advanced Aging Time IGMP querier Alarm IGMP settings Assured Forwarding IGMP snooping AutoConfiguration Adapter (ACA) Independent VLAN...
Page 248 Index Port Mirroring SNMPv1/v2 access settings Port priority 138, 139 SNMP logging Port State (Link) SNTP Broadcasts Port security (IP-/MAC-based) Software update Port security (source for alarms) Spanning Tree (STP) Port statistics table Statistics table Port VLAN ID Supply voltage Power over ETHERNET Switching PROFINET IO...
Page 249: C Readers' Comments
Readers’ Comments C Readers’ Comments What is your opinion of this manual? We are always striving to provide as comprehensive a description of our product as possible, as well as important information that will ensure trouble-free operation. Your comments and suggestions help us to further improve the quality of our documentation.
Page 250 Please fill out and return this page  as a fax to the number +49 (0)7127 14-1600 or  by post to Hirschmann Automation and Control GmbH Department 01RD-NT Stuttgarter Str. 45-51 72654 Neckartenzlingen RM GUI L2E Release 8.0 05/2013...
Page 251: D Further Support
Further Support D Further Support Technical Questions  For technical questions, please contact any Hirschmann dealer in your area or Hirschmann directly. You will find the addresses of our partners on the Internet at http://www.hirschmann.com Contact our support at https://hirschmann-support.belden.eu.com...
Page 252 Further Support With the Hirschmann Competence Center, you have decided against making any compromises. Our client-customized package leaves you free to choose the service components you want to use. Internet: http://www.hicomcenter.com RM GUI L2E Release 8.0 05/2013...
Page 253 Further Support RM GUI L2E Release 8.0 05/2013...

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