User Manual Basic Configuration
Contents
1. Hirschmann PowerMICE gt O Deactivate DHCP L Enter the IP parameters Local IP address On delivery the device has the local IP address 0 0 0 0 Netmask If your network has been divided up into subnetworks and if these are identified with a netmask then the netmask is to be entered here The default setting of the netmask is 0 0 0 0 IP address of the gateway This entry is only required if the device and the management station or tftp server are located in different subnetworks see page 28 Example of how the network mask is used Enter the IP address of the gateway between the subnetwork with the device and the path to the management station The default setting of the IP address is 0 0 0 0 LI Save the configuration entered using copy system running config nvram startup config 32 Basic Configuration Release 6 0 07 2010 Entering the IP Parameters enable network protocol none network parms 10 0 1 23 25992255 255 0 copy system running config nvram startup config 2 2 Entering IP parameters via CLI Switch to the Privileged EXEC mode Deactivate DHCP Assign the device the IP address 10 0 1 23 and the netmask 255 255 255 0 You have the option of also assigning a gateway address Save the current configuration to the non volatile memory After entering the IP parameters you can easily configure the device via the Web based interface see the Web based Interface referen2. Send to Query Ports The device sends the packets with an unknown MAC IP Multicast address to all query ports Send to All Ports The device sends the packets with an unknown MAC IP Multicast address to all ports Discard The device discards all packets with an unknown MAC IP Multicast address Note The way in which unlearned Multicast addresses are handled also applies to the reserved IP addresses from the Local Network Control Block 224 0 0 0 224 0 0 255 This can have an effect on higher level routing protocols Known Multicasts In this frame you can determine how the device in IGMP mode sends packets with known MAC IP Multicast addresses that were learned through IGMP Snooping Send to query and registered ports The device sends the packets with a known MAC IP Multicast address to all query ports and to registered ports This standard setting sends all Multicasts to all query ports and to registered ports The advantage of this is that it works in most applications without any additional configuration Application Flood and Prune routing in PIM DM Send to registered ports The device sends the packets with a known MAC IP Multicast address to registered ports The advantage of this setting which deviates from the standard is that it uses the available bandwidth optimally through direct distribution It requires additional port settings Application Routing protocol PIM
3. O Activate BOOTP to receive the configuration data see on page 48 Web based IP Configuration or see the CLI enable Switch to the Privileged EXEC mode network protocol bootp Activate BOOTP copy system running config Activate BOOTP nvram startup config y Confirm save L Provide the BOOTP server with the following data for a device etc bootptab for BOOTP daemon bootpd gw gateway ha hardware address ht hardware type ip IP address sm subnet mask tc template global gw 0 0 0 0 sm 255 255 240 0 Basic Configuration Release 6 0 07 2010 39 Entering the IP Parameters 2 5 System configuration via BOOTP oO NO W switch 01 ht ethernet ha 008063086501 ip switch 02 ht ethernet ha 008063086502 ip tc global tc global O NO A Lines that start with a character are comment lines The lines under global make the configuration of several devices easier With the template tc you allocate the global configuration data tc global to each device The direct allocation of hardware address and IP address is performed in the device lines switch 0 LO Enter one line for each device L After ha enter the hardware address of the device LI After ip enter the IP address of the device In the appendix under Setting up a DHCP BOOTP Server on page 1
4. O Select the Diagnostics Ports SFP Modules dialog Reload Help Figure 50 SFP Modules dialog Basic Configuration 172 Release 6 0 07 2010 Operation Diagnosis 9 7 Topology Discovery 9 7 Topology Discovery 9 7 1 Description of Topology Discovery IEEE 802 1AB describes the Link Layer Discovery Protocol LLDP LLDP enables the user to have automatic topology recognition for his LAN A device with active LLDP sends its own connection and management information to neighboring devices of the shared LAN This can be evaluated there once these devices have also activated LLDP receives connection and management information from neighboring devices of the shared LAN once these devices have also activated LLDP sets up a management information schema and object definition for saving information of neighboring devices with active LLDP A central element of the connection information is the exact unique ID of a connection point MSAP MAC Service Access Point This is made up of a device ID unique within the network and a port ID unique for this device Content of the connection and management information Chassis ID its MAC address Port ID its port MAC address Description of the port System Name System description Supported system capabilities Currently activated system capabilities Interface ID of the management address Port VLAN ID of the port Status of the autonegotiation at the port Medium half
5. 6 4 7 1 7 2 7 3 3 2 2 Saving to a file on URL Loading Software Updates Loading the Software manually from the ACA 4 1 1 Selecting the software to be loaded 4 1 2 Starting the software 4 1 3 Performing a cold start Automatic software update by ACA Loading the software from the tftp server Loading the Software via File Selection Configuring the Ports Protection from Unauthorized Access Protecting the device Password for SNMP access 6 2 1 Description of password for SNMP access 6 2 2 Entering the password for SNMP access Telnet Web Access 6 3 1 Description of Telnet Access 6 3 2 Description of Web Access 6 3 3 Enabling disabling Telnet Web Access HiDiscovery Access 6 4 1 Description of the HiDiscovery Protocol 6 4 2 Enabling disabling the HiDiscovery Function Synchronizing the System Time in the Network Entering the Time SNTP 7 2 1 Description of SNTP 7 2 2 Preparing the SNTP Configuration 7 2 3 Configuring SNTP Precision Time Protocol 7 3 1 Description of PTP Functions Network Load Control Direct Packet Distribution 8 1 1 Store and forward 8 1 2 Multi Address Capability 58 61 63 64 65 65 66 68 70 71 75 76 T TT 78 81 81 81 82 83 83 83 90 92 92 93 94 98 98 103 104 104 104 Basic Configuration Release 6 0 07 2010 Contents 8 2 8 3 8 4 8 5 8 6 9 2 9 3 9 4 9 5 3 Aging of Learned Addresses 4 Entering Stat
6. Figure 28 Device status LEDs P Power green yellow LED Glowing green Both supply voltages are on Glowing yellow There is only one supply voltage P1 or P2 on Not glowing Supply voltages P1 and P2 are too low FAULT error signal contact red LED Glowing red The signal contact is open i e it is reporting an error Not glowing The signal contact is closed i e it is not reporting an error a Ifthe manual adjustment is active on the FAULT signal contact then the detected error display is independent of the setting of the signal contact RM Ring Manager green yellow LED Glowing green RM function active redundant port disabled Glowing yellow RM function active redundant port enabled Not glowing RM function not active Flashing green Incorrect configuration of the HIPER Ring e g the ring is not connected to the ring port Stand by Glowing green Stand by mode enabled Not glowing Stand by mode not enabled RM and Stand by display saving processes of the AutoConfiguration Adapter ACA Flashing alternately Error during saving process LEDs flash synchronously two Loading configuration from the ACA times a second LEDs flash synchronously Saving the configuration in the ACA once a second RS20 22 30 32 40 48 Release 17 10 10 Port state The green and yellow LEDs at the individual port display port related information During the boot phase these LEDs are used to display the status of the boot proc
7. Forward all unregistered groups Forward all unregistered groups ninju alofi WAIVIII II Schreiben Laden Hite Figure 31 Multicasts dialog Basic Configuration Release 6 0 07 2010 117 Network Load Control 8 3 Rate Limiter 8 3 Rate Limiter 8 3 1 Description of the Rate Limiter The device can limit the rate of message traffic during periods of heavy traffic flow Entering a limit rate for each port specifies the amount of traffic the device is permitted to transmit and receive If the data load transmitted at this port exceeds the maximum load entered the device will discard the excess data at this port A global setting enables disables the rate limiter function at all ports Note The limiter functions work exclusively on layer 2 and serve the purpose of limiting the effects of storms of those frame types typically broadcasts that the Switch floods The limiter function ignores any protocol information of higher layers like IP or TCP This may affect e g TCP traffic You can minimize this effects by applying the limiter function only to particular frame types e g to broadcasts multicasts and unicasts with an unlearned destination address and excluding unicasts with a learned destination address from the limitation using the egress limiter function instead of the ingress limiter function because the former cooperates slightly better with TCP s flow control
8. Static Query Port Basic Configuration Release 6 0 07 2010 115 Network Load Control 116 8 2 Multicast Application Note If the device is connected to a HIPER ring you can obtain quick reconfiguration of the network for data packets with registered Multicast destination addresses with the following settings gt Switch on the IGMP Snooping on the ring ports and globally and gt activate IGMP Forward All per port on the ring ports Funktion Multicasts Unbekannte Multicasts C An Query Ports senden An alle Ports senden C Verwerfen C an Aus Bekannte Multicasts C An Query und registrierte Ports senden An registrierte Ports senden Port IGMP Forw Query Query All Port Port 111 M Lj disable i Vv C disable m disable disable KUKUK 1 13 1 4 il Schreiben Laden OHilte oo Figure 30 IGMP Snooping dialog Basic Configuration Release 6 0 07 2010 Network Load Control 8 2 Multicast Application 8 2 5 Setting GMRP a O Select the Switching Multicasts GMRP dialog E Operation E Settings per Port Table r Funktion Can Aus Q a p GMRP Service Requirement Port Forward all unregistered groups 1 1 Forward all unregistered groups 1 Forward all unregistered groups 1 3 Forward all unregistered groups 1 Forward all unregistered groups Forward all unregistered groups Forward all unregistered groups Forward all unregistered groups
9. SunOS tftp dgram udp wait root usr etc in tftpd in tftpd s tftpboot HP tftp dgram udp wait root usr etc in tftpd tftpd If the process is not entered or only entered as a comment line modify etc inetd conf accordingly and then re initialize the INET daemon This is performed with the command kill 1 PID where PID is the process number of inetd This re initialization can be executed automatically by entering the following UNIX commands SunOS ps ax grep inetd head 1 awk e print 1 kill 1 HP etc inetd c Basic Configuration Release 6 0 07 2010 201 Setting up the Configuration A 3 TFTP Server for Software Up Environment dates You can obtain additional information about the tftpd daemon tftpd with the UNIX command man tftpd Note The command ps does not always show the tftp daemon although it is actually running Special steps for HP workstations O During installation on an HP workstation enter the user tftp in the 202 etc passwd file For example tftp 510 20 tftp server usr tftpdit bin false tftpuser ID is in the password field 510 sample user number 20 sample group number tftp server any meaningful name bin false mandatory entry login shell Test the tftp process with for example cd tftpboot device tftp lt tftp Servername gt get device device bin rm device bin Basic Configuration Release 6 0 07 2010 Setting up the Configuration A
10. 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 The time displayed is the same worldwide Local time differences are not taken into account The SNTP client obtains the UTC from the SNTP server GPS NTP PLC Client Server Switch Switch HE e X Ee Client Client Server Client Server Client Server 192 168 1 1 192 168 1 2 192 168 1 3 Figure 24 SNTP cascade Basic Configuration 92 Release 6 0 07 2010 Synchronizing the System Time in the 7 2 SNTP Network 7 2 2 Preparing the SNTP Configuration L To get an overview of how the time is passed on draw a network plan with all the devices participating in SNTP When planning bear in mind that the accuracy of the time depends on the signal runtime PLC Client Switch Switch BE EB ER p A je a ris oe Be Client Client Server Client Server Client Server 192 168 1 1 192 168 1 2 192 168 1 3 Figure 25 Example of SNTP cascade L Enable the SNTP function on all devices whose time you want to set using SNTP The SNTP server of the device responds to Unicast requests as soon as it is enabled LO If no reference clock is available specify a device as the re
11. detected OK OK OK OK OK OK OK Duplex problem detected OK OK OK OK network extension EMI EMI EMI EMI Duplex problem EMI network extension EMI EMI EMI Duplex problem Duplex problem EMI detected Table 21 Evaluation of non matching of the duplex mode Activating the detection L Select the Switching Global dialog LI Select Enable duplex mismatch detection The device then checks whether the duplex mode of a port might not match that of the remote port If the device detects a potential mismatch it creates an entry in the event log and sends an alarm trap enable configure 170 Switch to the Privileged EXEC mode Switch to the Configuration mode Basic Configuration Release 6 0 07 2010 Operation Diagnosis 9 5 Event Counter at Port Level bridge duplex mismatch detec operation enable bridge duplex mismatch detec operation disable t Activates the detection and reporting of non matching duplex modes t Deactivates the detection and reporting of non matching duplex modes Basic Configuration Release 6 0 07 2010 171 Operation Diagnosis 9 6 Displaying the SFP Status 9 6 Displaying the SFP Status The SFP status display allows you to look at the current SFP module connections and their properties The properties include module type gt support provided in media module gt Temperature in C gt Tx Power in mW Receive power in mW
12. flow chart see fig 13 While the system configuration is based on the classic DHCP protocol on the device being configured see on page 44 System Configuration via DHCP Option 82 is based on the network topology This procedure gives you the option of always assigning the same IP address to any device which is connected to a particular location port of a device on the LAN The installation of a DHCP server is described in the chapter Setting up a DHCP Server with Option 82 on page 196 gt PLC Switch Option 82 MAC address IP 00 80 63 10 9a d7 10 0 1 100 DHCP server IP 10 0 1 1 e BENSA i IP 10 0 1 100 Figure 15 Application example of using Option 82 Basic Configuration Release 6 0 07 2010 47 Entering the IP Parameters 2 8 Web based IP Configuration 2 8 Web based IP Configuration 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 Mode BOOTP DHCP MAC Address 00 80 63 51 82 80 DHCP C BOOTP System name PowerMICE 518280 DHCP Local Local IP Address fioors12 Netmask 255 255 255 0 Gateway address 110 0 1 1 VLAN HiDiscovery Protocol Dh Operation On Off Access read write z Set Reload Help Figure 16 Network Parameters Dialog L Under Mode
13. 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 page 190 Setting up a DHCP BOOTP Server In the DHCP mode the configuration is via a DHCP server on the basis of the MAC address or the name of the device see page 196 Setting up a DHCP Server with Option 82 In the local mode the net parameters in the device memory are used Basic Configuration 48 Release 6 0 07 2010 Entering the IP Parameters 2 8 Web based IP Configuration L Enter the parameters on the right according to the selected mode L You enter the name applicable to the DHCP protocol in the Name line in the system dialog of the Web based interface LI The VLAN frame enables you to assign a VLAN to the agent If you enter 0 here as the VLAN ID not included in the VLAN standard version the agent will then be accessible from all VLANs LI The HiDiscovery protocol allows you to allocate an IP address to the device on the basis of its MAC address Activate the HiDiscovery protocol if you want to allocate an IP address to the device from your PC with the enclosed HiDiscovery software state on delivery operation on access read write Note Save the settings so that you will still have the entries after a restart see on page 51 Loading saving settings Basic Configuration Release 6 0 07 2010 49 Enterin
14. 100 Mbit s full duplex mode 10 Mbit s half duplex mode 10 Mbit s full duplex mode State on delivery autonegotiation activated The socket housing is electrically connected to the front panel Figure Pin Function 8 1 2 One line pair receiver path 7 3 6 One line pair sender path 4 5 7 8 Not used 4 E 3 2 IL 1 Table 11 Pin assignment of a TP TX interface in MDI X mode RJ45 socket 10 100 Mbit s twisted pair connection PoE RS22 RS32 These connections are RJ45 sockets 10 100 Mbit s TP PoE ports enable the connection of terminal devices or independent network segments according to the IEEE 802 3 10BASE T 1O00BASE TX and IEEE 802 3af Power over ETHERNET on data lines standards These ports support Autonegotiation Autopolarity Autocrossing if autonegotiation is activated 100 Mbit s half duplex mode 100 Mbit s full duplex mode 10 Mbit s half duplex mode 10 Mbit s full duplex mode Power over ETHERNET PoE at the last four ports of the device State on delivery autonegotiation activated The socket housing is electrically connected to the front panel The PoE voltage is input via the wire pairs transmitting the signal phantom voltage RS20 22 30 32 40 Release 17 10 10 45 Figure Pin Function PoE 8 7 6 5 4 3 1 1 RD Receive Data V 2 RD Receive Data V LL EE Le 3 TD Transmit Data V 6 TD Transmit Data V l gt 4 5 7 8 Not used Tabl
15. 9 6 9 7 9 8 9 9 9 10 9 11 9 12 9 13 9 5 1 Detecting Non matching Duplex Modes Displaying the SFP Status Topology Discovery 9 7 1 Description of Topology Discovery 9 7 2 Displaying the Topology Discovery Results Detecting IP Address Conflicts 9 8 1 Description of IP Address Conflicts 9 8 2 Configuring ACD 9 8 3 Displaying ACD Detecting Loops Reports Monitoring Data Traffic at Ports Port Mirroring Syslog Event Log Setting up the Configuration Environment General Information Index Further Support 168 172 173 173 175 178 178 179 180 181 182 184 187 188 189 205 213 217 Basic Configuration Release 6 0 07 2010 About this Manual About this Manual The Basic Configuration user manual contains the information you need to start operating the device It takes you step by step from the first startup operation through to the basic settings for operation in your environment The following thematic sequence has proven itself in practice Set up device access for operation by entering the IP parameters Check the status of the software and update it if necessary If a configuration already exists load store it Configure the ports Set up protection from unauthorized access Optimize the data transmission with network load control Synchronize system time in the network Function diagnosis Store the newly created configuration to nonvolatile memory The Installation u
16. Basic Configuration user manual Redundancy Configuration user manual Web based Interface reference guide Command Line Interface user manual The Network Management Software HiVision Industrial HiVision provides you with additional options for smooth configuration and monitoring Configuration of multiple devices simultaneously Graphical interface with network layouts Auto topology discovery Event log Event handling Client Server structure Browser interface ActiveX control for SCADA integration SNMP OPC gateway Key The symbols used in this manual have the following meanings Listing O Work step Subheading RS20 22 30 32 40 Release 17 10 10 11 1 Device description The RS20 22 30 32 40 family provides you with a range of Switch variants You can set up your device individually based on different criteria Number of ports Transmission speed Media type Types of connectors Temperature range Certifications Software variant The RS20 22 30 32 40 devices are designed for the special requirements of industrial automation They meet the relevant industry standards provide very high operational reliability even under extreme conditions and also long term reliability and flexibility The devices allow you to set up switched industrial ETHERNET networks that conform to the IEEE 802 3 and 802 3u standards using copper wires or optical fibers in a line or ring structure The devices work without a fan The volt
17. The clock can be both a boundary clock and an ordinary clock Stratum 1 clock class 6 clocks include GPS clocks and calibrated atomic clocks A stratum 1 clock cannot be synchronized using the PTP from another clock in the PTP system 2 6 Indicates the second choice reference clock 3 187 Indicates the reference clock that can be synchronized via an external connection 4 248 Indicates the reference clock that cannot be synchronized via an external connection This is the standard setting for boundary clocks 5 254 Reserved 255 255 Such a clock should never be used as the best master clock Table 6 Stratum classifying the clocks Cable delays device delays The communication protocol specified by IEEE 1588 enables delays to be determined Formulas for calculating the current time eliminate delays Accuracy of local clocks The communication protocol specified by IEEE 1588 takes into account the inaccuracy of local clocks in relation to the reference clock Calculation formulas permit the synchronization of the local time taking into account the inaccuracy of the local clock in relation to the reference clock Basic Configuration Release 6 0 07 2010 99 Synchronizing the System Time in the 7 3 Precision Time Protocol Network Reference Local Master clock ae Slave clock Delay Jitter Delay Jitter Delay Jitter Lf NONVNVYVN Phy a L Phy PTP Precision Time Protocol Application Layer U
18. _ _ _ _ _ _ _ m a 5 CTS 1 6 o2 n c 2 eee aaa olf 8 TX 3 i Be GND a of 1 RX 5 6 Figure 30 Pin assignment of the V 24 interface and the DB9 connector oO Wh Note You will find the order number for the terminal cable which is ordered separately in the Technical Data chapter see page 60 You will find a description of the V 24 interface in the Basic Configuration User Manual on the CD ROM RS20 22 30 32 40 Release 17 10 10 51 2 4 Disassembly E Removing the device from the DIN rail L To take the device off the DIN rail insert a screwdriver horizontally under the housing into the locking slide pull it without tipping the screwdriver downwards and lift the device upwards Y RS20 RS30 RS40 RS22 RS32 E Removing the device from the wall mounting plate LI To remove the device from the rail of the wall plate press the device downwards and pull it from the rail below E Disassembling the SFP modules L Pull the module out of the socket by means of the opened lock LI Close the module with the protective cap RS20 22 30 32 40 52 Release 17 10 10 3 Technical data General technical data Dimensions WxHxD Weight Power supply RS20 22 30 32 40 Release 17 10 10 RS20 0400 RS20 08 RS20 09 RS30 0802 RS20 16 RS20 17 RS30 1602 RS20 24 RS20 25 RS30 2402 RS40 0009CCCCS RS40 0009CCCCE RS40
19. and the connection is OK The port is disabled by the management and it has a connection The port is disabled by the management and it has no connection The port is in autonegotiation mode The port is in HDX mode The port is in RSTP discarding mode 100 Mbit s e 0 oOoN The port is in routing mode 100 Mbit s Basic Configuration 166 Release 6 0 07 2010 Operation Diagnosis 9 5 Event Counter at Port Level 9 5 Event Counter at Port Level The port statistics table enables experienced network administrators to identify possible detected problems in the network This table shows you the contents of various event counters In the Restart menu item you can reset all the event counters to zero using Warm start Cold start or Reset port counter The packet counters add up the events sent and the events received Counter Possible detected problem Received fragments The controller of the connected device is inoperable Electromagnetic interference in the transmission medium CRC error The controller of the connected device is inoperable Electromagnetic interference in the transmission medium Defective component in the network Collisions The controller of the connected device is inoperable Network overextended lines too long Collision of a fault with a data packet Table 20 Examples indicating possible detected problems O Select the Diagnostics Ports Statistics dialog LI To re
20. contact and connect the supply voltage Install the device on the DIN rail grounding Install the terminal block start up procedure Connecting the data lines 2 1 Installing the device 2 1 1 Unpacking and checking L Check that the contents of the package are complete see page 59 Scope of delivery L Check the individual parts for transport damage RS20 22 30 32 40 Release 17 10 10 31 2 1 2 Installing the SFP modules optional Figure 13 1 Fast EHTERNET fiber optic SFP module 2 Gigabit ETHERNET fiber optic SFP module L Before attaching an SFP module first remove the protective cap over the socket L Push the SFP module with the lock closed into the socket until it latches audibly in place Note Only use Hirschmann SFP modules see page 60 Accessories 2 1 3 Insert data in label area The information field for the IP address on the front of the device helps you to structure your network installation clearly FAULTA RS20 2aviPi _ ov OV _l 24V P2 P FAULT ts ODA stand ee ae RM RM Stand nE usB i Eene IP ADDRESS D S gt N N Aufkleber MAC Adresse Figure 14 Label area for IP address of device 1 IP address of device label area 2 MAC address of device label RS20 22 30 32 40 32 Release 17 10 10 2 1 4 Adjust DIP switch settings The 2 pin DIP switch on the front panel of the device gives you the following options
21. example RS22 1700MMM2z2 P 1 to 5 and 7 to 9 see fig 5 6 ports in compliance with 10 100BASE T X RJ45 connections the PoE capable ports 14 to 17 are indicated accordingly RS20 22 30 32 40 28 Release 17 10 10 Ls Qpa P FAULT Stand by N RM RM A HIRSCHMANN 1 RS32 2 gt AULT A saven ov W avea 2 RS32 080200ZZ P Figure 12 RS32 device variants with 4 uplink ports example RS32 080200ZZ P 1 to 5 and 7 to 9 see fig 9 6 ports in compliance with 10 100BASE T X RJ45 connections the PoE capable ports 7 to 10 are indicated accordingly Device variants RS22 and RS32 support Power over Ethernet PoE in accordance with IEEE 802 3af They allow the connection and remote supply of for example IP telephones Voice over IP webcams sensors printer servers and WLAN access points via 1OBASE T 100BASE TX With PoE these terminal devices are powered by the twisted pair cable The RS22 and RS32 devices provide four 1OBASE T 100BASE TX ports RJ45 sockets for connecting network segments or PoE terminal devices PD Powered Device for all IEEE802 3af classes up to a maximum power output of 15 4 W The 4 PoE capable ports are the 4 bottom ports on the right side of the device see on page 28 Number of ports and media for devices with PoE On the device the PoE ports are highlighted in red The current is supplied on wire pairs transmittin
22. frame enter the path under which the device will find the configuration file if you want to load from the URL L Click Restore The URL identifies the path to the tftp server from which the device loads the configuration file The URL is in the format tftp IP address of the tftp server path name file name e g tftp 10 1 112 5 switch config dat Example of loading from a tftp server L Before downloading a file from the tftp server you have to save the configuration file in the corresponding path of the tftp servers with the file name e g switch switch 01 cfg see on page 58 Saving to a file on URL L In the URL line enter the path of the tftp server e g tftp 10 1 112 214 switch switch 01 cfg Basic Configuration 54 Release 6 0 07 2010 Loading saving settings 3 1 Loading settings Load fromDevice fromURL C fromURL amp savetoDevice via PC Restore Save toDevice toURL binary to URL script toPC binary C to PC script Save URL fiftp i192 168 1100productiproductctg Delete Current Configuration Current Configuration and from Device Delete configuration AutoConfiguration Adapter Status Undo Modifications of Configuration Function Period to undo while Connection is lost s 600 Watchdog IP Address 0 0 0 0 Set Reload Help Figure 17 Load Save dialog enable Switch to the Privileged EXEC mode copy tftp 10 1 112 159 The device loads the c
23. name type bin e g device bin and click on Open LI Click on Update to transfer the software to the device The end of the update is indicated by one of the following messages Update completed successfully Update failed Reason incorrect file Update failed Reason error when saving File not found reason file name not found or does not exist Connection error reason path without file name L After the update is completed successfully you activate the new software Select the Basic settings Restart dialog and perform a cold start In a cold start the device reloads the software from the non volatile memory restarts and performs a self test LI In your browser click on Reload so that you can access the device again after it is booted Basic Configuration 70 Release 6 0 07 2010 Configuring the Ports 5 Configuring the Ports The port configuration consists of Switching the port on and off Selecting the operating mode Activating the display of connection error messages Configuring Power over ETHERNET Switching the port on and off In the state on delivery all the ports are switched on For a higher level of access security switch off the ports at which you are not making any connection L Select the Basics Port Configuration dialog L In the Port on column select the ports that are connected to another device Selecting the operating mode In the state on delivery all the po
24. vlan participation include 3 Port 1 1 becomes member untagged in VLAN 3 vlan tagging 3 Port 1 1 becomes member tagged in VLAN 3 vlan pvid 1 Port 1 1 is assigned the port VLAN ID 1 vlan ingressfilter Port 1 1 ingress filtering is activated vlan acceptframe vlanonly Port 1 1 only forwards frames with a VLAN tag exit Switch to the Configuration mode interface 1 2 Switch to the interface configuration mode for interface 1 2 vlan participation include 2 Port 1 2 becomes member untagged in VLAN 2 vlan pvid 2 Port 1 2 is assigned the port VLAN ID 2 exit Switch to the Configuration mode interface 1 3 Switch to the Interface Configuration mode of Interface 1 3 vlan participation include 3 Port 1 3 becomes member untagged in VLAN 3 vlan pvid 3 Port 1 3 is assigned the port VLAN ID 3 exit Switch to the Configuration mode interface 1 4 Switch to the interface configuration mode of interface 1 4 vlan participation include 2 Port 1 4 becomes member untagged in VLAN 2 vlan pvid 2 Port 1 4 is assigned the port VLAN ID 2 exit Switch to the Configuration mode interface 1 5 Switch to the interface configuration mode for port 1 5 vlan participation include 3 Port 1 5 becomes member untagged in VLAN 3 vlan pvid 3 Port 1 5 is assigned the port VLAN ID 3 exit Switch to the Configuration mode exit Switch to the privileged EXEC mode show vlan 3 Show details for VLAN 3 VLAN ID i 3 LAN Name VLAN3 LAN Type Static LAN Creation Time 0 days 00
25. 07 2010 Index C Index A ACA Access Access right Access rights Access security 37 52 63 65 158 158 158 158 58 77 71 Access with Web based interface password ACD Address conflict Address Conflict Detection Address table AF Aging Time Aging time Alarm Alarm messages APNIC ARIN ARP Assured Forwarding Authentication AutoConfiguration Adapter Automatic configuration B Bandwidth Booting BOOTP Broadcast Broadcast Limiter Settings Browser Cc CD ROM CIDR Class Selector Classless Inter Domain Routing Classless Inter Domain Routing CLI access password Clock Clock synchronization Closed circuit Cold start Command Line Interface Configuration Configuration changes Configuration data Configuration file Basic Configuration Release 6 0 07 2010 78 178 178 178 105 125 105 105 110 110 157 154 158 37 158 158 71 108 132 14 23 44 52 104 106 108 119 19 154 39 47 54 57 44 53 Connection error 72 D Data transfer parameter 14 Destination address 106 106 107 Destination address field 105 Destination table 154 Device Status 159 159 162 Device status 159 DHCP 23 44 44 47 52 DHCP Client 44 DHCP client 44 DHCP Option 82 47 190 196 DHCP server 90 190 196 Differentiated Services 125 DiffServ 121 DiffServ Codepoint 125 DSCP 125 127 129 130 Dynamic 106 E EF 125 Event log 188 Expedited Forwarding 125
26. 0802 device If possible position one side of the RS30 0802 device on a wall or in a similarly stable way If you are positioning multiple RS30 0802 devices side by side mount the row of devices in the way described for a single device O Mount a standard DIN rail stopper on both sides beside the mounting kit For more information on mounting the RS30 0802 on a DIN rail on ships see the Open Rail Mounting Kit Mounting Instructions manual supplied with the Open Rail Mounting Kit Figure 19 Mounting the RS30 0802 on ships with the Open Rail Mounting Kit 1 Open Rail Mounting Kit 942 007 001 2 Open Rail Mounting Kit 942 007 101 Mounting on the wall RS22 RS32 In addition to the option of mounting them on a DIN rail you can also mount the RS22 RS32 devices on the wall using the wall mounting plate supplied see page 60 Accessories RS20 22 30 32 40 Release 17 10 10 39 Figure 20 Mounting the RS22 RS32 devices on the wall L Mount the device on the wall plate as shown in the illustration Insert the upper snap in guide of the device into the rail and press it down against the rail until it snaps into place CI Fasten the wall plate see on page 60 Accessories on a level wall surface using four screws E Grounding With the RS20 RS30 RS40 the front panel of the device is grounded via the separate ground screw With the RS22 RS32 the front panel and the metal housing of the dev
27. 1 System Monitor Selected OS L3P 01 0 00 K16 2005 10 31 19 32 1 Select Boot Operating System 2 Update Operating System 3 Start Selected Operating System 4 End reset and reboot 5 Erase main configuration file sysMon1 gt Figure 2 System monitor 1 screen display L Select a menu item by entering the number O To leave a submenu and return to the main menu of system monitor 1 press the lt ESC gt key Basic Configuration Release 6 0 07 2010 15 Access to the user interfaces 1 2 Command Line Interface 1 2 Command Line Interface The Command Line Interface enables you to use the functions of the device via a local or remote connection The Command Line Interface provides IT specialists with a familiar environment for configuring IT devices The script compatibility of the Command Line Interface enables you among other things to feed multiple devices with the same configuration data to create and apply partial configurations or to compare 2 configuration by comparing the script files You will find a detailed description of the Command Line Interface in the Command Line Interface reference manual You can access the Command Line Interface via the V 24 port out of band Telnet in band Note To facilitate making entries CLI gives you the option of abbreviating keywords Type in the beginning of a keyword When you press the tab key CLI completes the keyword Opening the
28. 113 Parameter Values IGMP capable terminal devices respond to a query with a report message thus generating a network load Select large sending intervals if you want to reduce the load on your network and can accept the resulting longer switching times Select small sending intervals if you require short switching times and can accept the resulting network load IGMP Settings Current querier IP address shows you the IP address of the device that has the query function In Max Response Time you specify the period within which the Multicast group members respond to a query valid values 1 3 598 s default setting 10 s Note the connection between the parameters Max Response Time Send Interval and Group Membership Interval see on page 113 Parameter Values The Multicast group members select a random value within the maximum response time for their response to prevent all the Multicast group members responding to the query at the same time Select a large value if you want to reduce the load on your network and can accept the resulting longer switching times Select a small value if you require short switching times and can accept the resulting network load In Group Membership Interval you specify the period for which a dynamic Multicast group remains entered in the device if it does not receive any report messages valid values 3 3 600 s default setting 260 s Note the connection betw
29. 1xTX port 2xFX port 2xTX port 1xFX port 1xTX port 2xFX port 3xFX port 3xFX port 3xFX port 4xFX port 4xFX port 4xFX port 4xFX port Maximum power consumption 5 3 W 6 5 W 7 7W 5 3 W 6 5 W 7 7W 9 4 W 10 6 W 11 8 W 12 1 W 13 3 W 14 5 W 8 9 W 8 6 W 8 3 W 13 0 W 12 7 W 12 4W 15 7 W 15 4 W 15 1 W 9 6 W 13 7 W 16 4 W 12 7 W 16 8 W 19 5 W 20 0 W Power output 18 1 Btu IT h 22 2 Btu IT h 26 3 Btu IT h 18 1 Btu IT h 22 2 Btu IT h 26 3 Btu IT h 32 1 Btu IT h 36 2 Btu IT h 40 3 Btu IT h 41 3 Btu IT h 45 4 Btu IT h 52 9 Btu IT h 30 4 Btu IT h 29 4 Btu IT h 28 4 Btu IT h 44 4 Btu IT h 43 4 Btu IT h 42 4 Btu IT h 53 6 Btu IT h 52 6 Btu IT h 51 6 Btu IT h 32 8 Btu IT h 46 7 Btu IT h 56 0 Btu IT h 43 3 Btu 57 3 Btu 66 5 Btu 68 2 Btu IT h IT h IT h IT h a Le Le a Table 19 Power consumption power output RS20 RS30 RS40 and RS22 RS32 without PDs powered devices 58 RS20 22 30 32 40 Release 17 10 10 Device name Device model Maximum Power output power consumption 2 uplink ports RS22 0800 2xTX port 70 9 W 31 8 Btu IT h RS22 0800 1xFX port 1xTX port 72 1 W 35 9 Btu IT h RS22 0800 2xFX port 73 3 W 40 0 Btu IT h RS22 1600 2xTX port 75 0 W 45 8 Btu IT h RS22 1600 1xFX port 1xTX port 76 2 W 49 9 Btu IT h RS22 1600 2xFX port 77 4W 54 0 Btu IT h RS22 2400 2xTX port 77 7W 55 0 Btu IT h R
30. 2010 Setting up the Configuration Environment A Setting up the Configuration Environment Basic Configuration Release 6 0 07 2010 189 Setting up the Configuration A 1 Setting up a DHCP BOOTP Ser Environment ver A 1 Setting up a DHCP BOOTP Server On the CD ROM supplied with the device you will find the software for a DHCP server from the software development company IT Consulting Dr Herbert Hanewinkel You can test the software for 30 calendar days from the date of the first installation and then decide whether you want to purchase a license O To install the DHCP servers on your PC put the CD ROM in the CD drive of your PC and under Additional Software select haneWIN DHCP Server To carry out the installation follow the installation assistant O Start the DHCP Server program haneWIN DHCP Server 2 1 2 File Options window Help Observed MAC addresses Id 2 4 MAC Addhess ld IP Address TFTP New J static dynamic j ignored Listening on Port 67 ZA Figure 55 Start window of the DHCP server Note The installation procedure includes a service that is automatically started in the basic configuration when Windows is activated This service is also active if the program itself has not been started When started the service responds to DHCP queries L Open the window for the program settings in the menu bar Options Preferences and select the DHCP tab page Basic
31. 3 TFTP Server for Software Up Environment dates Checking the tftp process Edit the file ete inetd conf Is tftp commented out Delete the comment character from this line Re initialize inetd conf by entering kill 1 PID Problems with the tftp server e g ed tfitphoot device tftp lt titp Servername gt Test the tftp process get device device bin Response if the process is running Received rm device bin Checking of the tftp process completed tftp dgram udp wait root usrvete in tftpd in tftpd tftpbhoot Figure 71 Flow chart for setting up tftp server with SunOS and HP Basic Configuration Release 6 0 07 2010 203 Setting up the Configuration A 3 TFTP Server for Software Up Environment dates A 3 2 Software Access Rights The agent needs read permission for the tftp directory on which the device software is stored Example of a UNIX tftp Server Once the device software has been installed the tftp server should have the following directory structure with the stated access rights File name Access device bin rW T r Table 23 Directory structure of the software link d directory r read w write x execute 15t position denotes the file type normal file 21d to 4 positions designate user access rights 5 to 7 positions designate access rights for users from other groups 8 to 10 positions designate access rights of all other users Basic Confi
32. ACA to its non volatile memory as the main software The device then performs a cold start during which it loads the new software from the non volatile memory One of the following messages in the log file indicates the result of the update process Basic Configuration 66 Release 6 0 07 2010 Loading Software Updates 4 2 Automatic software update by ACA S_watson AUTOMATIC_SWUPDATE_SUCCESSFUL Update completed successfully S_watson AUTOMATIC_SWUPDATE_FAILED_ WRONG FILE Update failed Reason incorrect file S_watson AUTOMATIC_SWUPDATE_FAILED_SAVING FILE Update failed Reason error when saving LI In your browser click on Reload so that you can use the Web based interface to access the device again after it is booted Basic Configuration Release 6 0 07 2010 67 Loading Software Updates 4 3 Loading the software from the tftp server 4 3 Loading the software from the tftp server For a tftp update you need a tftp server on which the software to be loaded is stored see on page 200 TFTP Server for Software Updates O Select the Basics Software dialog The URL identifies the path to the software stored on the tftp server The URL is in the format tftp IP address of the tftp server path name file name e g tfitp 192 168 1 1 device device bin Basic Configuration 68 Release 6 0 07 2010 Loading Software Updates 4 3 Loading the software from the tftp server LI Enter the path of the device
33. Aufkleber MAC Adresse 6 RS20 1600M2N2 D RS20 1600M2T1 D RS20 1600T1T1 D Figure 3 Device variants with 16 10 100 Mbit s ports RS20 1600 1 to 9 see fig 1 FAULTA R20 s2aviPi _ov_oV_1 24v P2 f erea r 9 Aufkleber MAC Adresse Tr Mor MEn MEn MEn MEn ME SE RS20 2400M2M2 D RS20 2400M27T1 D RS20 2400T1T1 D Figure 4 Device variants with 24 10 100 Mbit s ports RS20 2400 1 to 9 see fig 1 RS20 22 30 32 40 22 Release 17 10 10 RS20 2500MMM2 D RS20 1700MMM2 D RS20 0900MMM2z D Figure 5 Device variants with 3 uplink ports 100 Mbit s 1 to 6 see fig 1 7 port 3 free choice of connection T1 Twisted pair T X RJ45 10 100 Mbit s M2 Multimode FX DSC 100 Mbit s M4 Multimode FX ST 100 Mbit s S2 Singlemode FX DSC 100 Mbit s S4 Singlemode FX ST 100 Mbit s L2 Singlemode Longhaul FX DSC 100 Mbit s G2 Singlemode Longhaul FX DSC 100 Mbit s 200 km 8 MAC address field 9 port 1 port 2 free choice of connections MM Multimode FX DSC 100 Mbit s NN Multimode FX ST 100 Mbit s VV Singlemode FX DSC 100 Mbit s UU Singlemode FX ST 100 Mbit s LL Singlemode Longhaul FX DSC 100 Mbit s GG Singlemode Longhaul FX DSC 100 Mbit s 200 km 10 IP address field RS20 22 30 32 40 Release 17 10 10 23 1
34. C address ranges is known as supernetting This enables you to subdivide class B address ranges to a very fine degree Basic Configuration 30 Release 6 0 07 2010 Entering the IP Parameters 2 2 Entering IP parameters via CLI 2 2 Entering IP parameters via CLI If you do not configure the system via BOOTP DHCP DHCP Option 82 the HiDiscovery protocol or the AutoConfiguration AdapterACA then you perform the configuration via the V 24 interface using the CLI Entering IP addresses Connect the PC with terminal program started to the RJ11 socket Command Line Interface starts after key press Log in and change to the Privileged EXEC Mode Switch off DHCP enter and save IP parameters End of entering IP addresses Figure 9 Flow chart for entering IP addresses Note If there is no terminal or PC with terminal emulation available in the vicinity of the installation location you can configure the device at your own workstation then take it to its final installation location Basic Configuration Release 6 0 07 2010 31 Entering the IP Parameters 2 2 Entering IP parameters via CLI C Set up a connection to the device see on page 16 Opening the Command Line Interface The start screen appears NOTE Enter for Command Help Command help displays all options that are valid for the normal and no command forms For the syntax of a particular command form please consult the documentation
35. EEC 40 C to 70 C 943 945 001 M FAST SFP SM LC 0 C to 60 C 943 866 001 M FAST SFP SM LC EEC 40 C to 70 C 943 946 001 M FAST SFP SM LC 0 C to 60 C 943 867 001 M FAST SFP SM LC EEC 40 C to 70 C 943 947 001 M FAST SFP LH LC 0 C to 60 C 943 868 001 M FAST SFP LH LC EEC 40 C to 70 C 943 948 001 Bidirectional Gigabit ETHERNET SFP Transceiver M SFP BIDI Type A LX LC EEC 40 C to 85 C 943 974 001 RS20 22 30 32 40 60 Release 17 10 10 Name Operating Order number temperature chassis M SFP BIDI Type B LX LC EEC 40 C to 70 C 943 974 002 M SFP BIDI Type A LH LC EEC 40 C to 70 C 943 975 001 M SFP BIDI Type B LH LC EEC 40 C to 70 C 943 975 002 M SFP BIDI Bundle LX LC EEC Type A B 40 C to 70 C 943 974 101 M SFP BIDI Bundle LH LC EEC Type A B 40 C to 70 C 943 975 101 Underlying norms and standards Name cUL 508 1998 EN 50121 4 2006 EN 55022 2006 A1 2007 EN 60079 15 EN 61000 6 2 2005 EN 61131 2 2007 FCC 47 CFR Part 15 2009 Germanischer Lloyd IEC EN 60950 1 2006 IEC EN 61850 3 IEEE 802 1 D IEEE 802 1 D 1998 IEEE 802 1 Q IEEE 802 1 Q 1998 IEEE 802 1 w 2001 IEEE 802 3 2002 IEEE 1613 ISA 12 12 01 cUL 1604 CSA C22 2 No 213 KR Safety for Industrial Control Equipment Railway applications EMC emitted interference and interference immunity for signal and telecommunication systems IT equipment radio interference characteristics Elec
36. H HIRSCHMANN A BELDEN BRAND User Manual Basic Configuration Industrial ETHERNET Gigabit Switch RS20 RS30 RS40 MS20 MS30 OCTOPUS Basic Configuration Technical Support Release 6 0 07 2010 HAC Support Belden com The naming of copyrighted trademarks in this manual even when not specially indicated should not be taken to mean that these names may be considered as free in the sense of the trademark and tradename protection law and hence that they may be freely used by anyone 2010Hirschmann Automation and Control GmbH Manuals and software are protected by copyright All rights reserved The copying reproduction translation conversion into any electronic medium or machine scannable form is not permitted either in whole or in part An exception is the preparation of a backup copy of the software for your own use For devices with embedded software the end user license agreement on the enclosed CD applies The performance features described here are binding only if they have been expressly agreed when the contract was made This document was produced by Hirschmann Automation and Control GmbH according to the best of the company s knowledge Hirschmann reserves the right to change the contents of this document without prior notice Hirschmann can give no guarantee in respect of the correctness or accuracy of the information in this document Hirschmann can accept no responsibility for damages resulting from the use of the netwo
37. Java Basic Configuration Release 6 0 07 2010 19 Access to the user interfaces 1 3 Web based Interface C Start your Web browser CI Check that you have activated JavaScript and Java in your browser settings L 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 Enter the address in the following form http XXX XXX XXX XXX The login window appears on the screen fh HIRSCHMANN Automation and Control A Belden Company Software Version 06 0 00 Login fuser 7 Passwort z Sprache Deutsch Pad Figure 6 Login window CI Select the desired language LI In the drop down menu you select user to have read access or admin to have read and write access to the device L The password public with which you have read access appears in the password field If you wish to have write access to the device then highlight the contents of the password field and overwrite it with the password private default setting L Click on OK Basic Configuration 20 Release 6 0 07 2010 Access to the user interfaces 1 3 Web based Interface The website of the device appears on the screen Note The changes you make in the dialogs are copied to the device when you click Set Click Reload to update the display Note You can block your access to the device by entering an incorrect configuration Act
38. RPS90 48V LV and RPS90 48V HV PoE power units LI Connect the PoE voltage to the 6 pin terminal block for the device included in the delivery Make sure the following requirements are met Supply line length lt 0 5 m FAULT A 48V P1 _ OV OV 48V P2 o 2 0 o ty Figure 17 Connecting the PoE supply voltage at the 6 pin terminal block of device RS22 RS32 RS22 RS32 signal contact The signal contact FAULT for pin assignment of terminal block see fig 17 monitors the functioning of the device thus enabling remote diagnostics You can specify the type of function monitoring in the Management You can also use the switch Web page to switch the signal contact manually and thus control external devices A break in contact is used to report the following conditions via the potential free signal contact relay contact closed circuit The detected inoperability of at least one of the two voltage supplies voltage supply 1 or 2 is below the threshold value A continuous malfunction in the device The loss of connection at at least one port The report of the link status can be masked by the Management for each port In the delivery state link status monitoring is deactivated The loss of ring redundancy reserve A detected error during the self test Incorrect configuration of the HIPER Ring or ring coupling The following condition is also reported in RM mode Ring redundancy reserve is available On
39. SM Basic Configuration Release 6 0 07 2010 Network Load Control 8 2 Multicast Application Settings per Port Table IGMP on This table column enables you to enable disable the IGMP for each port when the global IGMP Snooping is enabled Disabling the IGMP at a port prevents registration for this port IGMP Forward All This table column enables you to enable disable the Forward All IGMP Snooping function when the global IGMP Snooping is enabled With the Forward All setting the device sends to this port all data packets with a Multicast address in the destination address field Note If a number of routers are connected to a subnetwork you must use IGMP version 1 so that all the routers receive all the IGMP reports Note If you use IGMP version 1 in a subnetwork then you must also use IGMP version 1 in the entire network IGMP Automatic Query Port This table column shows you which ports the device has learned as query ports if automatic is selected in Static Query Port Static Query Port The device sends IGMP report messages to the ports at which it receives IGMP queries disable default setting This column allows you to also send IGMP report messages to other selected ports enable or connected Hirschmann devices automatic Learned Query Port This table column shows you at which ports the device has received IGMP queries if disable is selected in
40. Server 2 File Options Window Help Observed MAC addresses Id 2 4 1 2 J static dynamic ignored 4 Listening on Port 6 Figure 62 Adding static addresses LI Enter the MAC address of the device LI Enter the IP address of the device LI Select the configuration profile of the device O Click Apply and then OK Add static entries With static entries you can assign clients with known hardware address or identifier a fixed IP address and configuration profile The assigned IP addresses must not overlap with the dynamic address ranges Identifiers or hardware addresses must be specified byte by byte in hexadecimal notation For MAC hardware addresses the bytes must be separated by a dash or colon FE Cien Identifier I Grouttdenttie T Remoteidentitier or Hardware address 00 80 63 51 74 00 IP Address fias 21 8 112 105 Optional Configuration Profile PowerMICE1 05 x Remark I Redundant entry allow entry with an existing IP address crea Figure 63 Entries for static addresses L Add an entry for each device that will get its parameters from the DHCP server Basic Configuration 194 Release 6 0 07 2010 Setting up the Configuration Environment IN DHCP Server Fie Options Window Hep Observed MAC addresses Id 2 4 MAC Address id IP Address 00 80 63 51 74 00 PowerMICE105 149 218 112 105 03 06 05 14 23 22 00 80 63 10 9a d MICE1
41. VLAN Port dialog Basic Configuration 140 Release 6 0 07 2010 Network Load Control 8 6 VLANs Set Reload Help Figure 40 Assign and save Port VLAN ID Acceptable Frame Types and E Oo OO OQ Ingress Filtering Assign the Port VLAN ID of the related VLANs 2 or 3 to the individual ports see table Because terminal devices usually do not send data packets with a tag you select the admi tA11 setting for Acceptable Frame Types The setting for Ingress Filter does not affect how this example functions Click Set to temporarily save the entry in the configuration Select the Basics Load Save dialog In the Save frame select To Device for the location and click Save to permanently save the configuration in the active configuration Basic Configuration Release 6 0 07 2010 141 Network Load Control enable configure interface 1 1 vlan participation include 2 vlan pvid 2 exit interface 1 2 vlan participation include 3 vlan pvid 3 exit interface 1 3 vlan participation include 3 vlan pvid 3 exit interface 1 4 vlan participation include 2 vlan pvid 2 exit exit show VLAN 3 VLAN ID LAN Name LAN Type VLAN Creation Time Interface Current 1 Exclude 2 Include 3 Include 4 Exclude 5 Exclude 142 8 6 VLANs Switch to the Privileged EXEC mod
42. and full duplex settings and speed setting of the port Information about whether a redundancy protocol is switched on at the port and which one for example RSTP HIPER Ring Fast HIPER Ring MRP Ring Coupling Basic Configuration Release 6 0 07 2010 173 Operation Diagnosis 9 7 Topology Discovery Information about the VLANs which are set up in the switch VLAN ID and VLAN name regardless of whether the port is a VLAN member A network management station can call up this information from a device with LLDP activated This information enables the network management station to map the topology of the network To exchange information LLDP uses an IEEE MAC address which devices do not usually send For this reason devices without LLDP support discard LLDP packets Thus a non LLDP capable device between 2 LLDP capable devices prevents LLDP information exchange between these two devices To get around this Hirschmann devices send and receive additional LLDP packets with the Hirschmann Multicast MAC address 01 80 63 2F FF 0B Hirschmann devices with the LLDP function are thus also able to exchange LLDP information with each other via devices that are not LLDP capable The Management Information Base MIB of an LLDP capable Hirschmann device holds the LLDP information in the LLDP MIB and in the private hmLLDP Basic Configuration 174 Release 6 0 07 2010 Operation Diagnosis 9 7 Topology Discovery 9 7 2 Displaying the Topology Disco
43. delivery there is no ring redundancy monitoring RS20 22 30 32 40 Release 17 10 10 37 LI Pull the terminal block off the device and connect the power supply and signal lines 2 1 7 Installing the device on the DIN rail grounding E Mounting on the DIN rail The devices are mounted very quickly by snapping them onto the DIN rail LI Mount the device on a 35 mm DIN rail in accordance with DIN EN 60175 L Attach the upper snap in guide of the device into the DIN rail and press it down against the DIN rail until it snaps into place Note The shielding ground of the connectable twisted pair lines is connected to the front panel as a conductor As RS20 RS30 RS40 RS22 RS32 Figure 18 Mounting on the DIN rail E DIN rail mounting on ships RS30 0802 When you are mounting your RS30 0802 Open Rail device on a DIN rail on ships and in similar applications the Open Rail Mounting Kit available as an accessory can be used to avoid excessive resonance L You must use the Open Rail Mounting Kit with the order number 942 007 001 see page 60 Accessories when mounting your RS30 0802 device on ships If you have very little space on your DIN rail you can alternatively use Open Rail Mounting Kit 942 007 101 for mounting DIN rail on DIN rail RS20 22 30 32 40 38 Release 17 10 10 L Mount one mounting kit on each side of your RS30 0802 device but at least one mounting kit on one side of the RS30
44. depends on the signal runtime IEEE 1588 with the Precision Time Protocol PTP achieves accuracies in the order of fractions of microseconds This superior method is suitable for process control for example Examples of application areas include log entries time stamping of production data production control etc Select the method SNMP or PTP that best suits your requirements You can also use both methods simultaneously if you consider that they interact Basic Configuration Release 6 0 07 2010 89 Synchronizing the System Time in the 7 1 Entering the Time Network 7 1 Entering the Time If no reference clock is available you have the option of entering the system time in a device and then using it like a reference clock see on page 94 Configuring SNTP Note When setting the time in zones with summer and winter times make an adjustment for the local offset The device can also get the SNTP server IP address and the local offset from a DHCP server LI Select the Time dialog With this dialog you can enter time related settings independently of the time synchronization protocol selected The IEEE 1588 time displays the time determined using PTP The SNTP time displays the time with reference to Universal Time Coordinated UTC The display is the same worldwide Local time differences are not taken into account The System time uses the IEEE 1588 SNTP time allowing for the local time
45. difference from IEEE 1588 SNTP time System time IEEE 1588 SNTP time Local offset Time source displays the source of the following time data The device automatically selects the source with the greatest accuracy Possible sources are local and sntp The source is initially local If SNTP is activated and if the device receives a valid SNTP packet the device sets its time source to sntp Basic Configuration 90 Release 6 0 07 2010 Synchronizing the System Time in the 7 1 Entering the Time Network L With Set time from PC the device takes the PC time as the system time and calculates the IEEE 1588 SNTP time using the local time difference IEEE 1588 SNTP time System time Local offset C The Local Offset is for displaying entering the time difference between the local time and the IEEE 1588 SNTP time With Set offset from PC the agent determines the time zone on your PC and uses it to calculate the local time difference enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode sntp time lt YYYY MM DD Set the system time of the device HH MM SS gt sntp client offset lt 1000 to Enter the time difference between the local time 1000 gt and the IEEE 1588 SNTP time Basic Configuration Release 6 0 07 2010 91 Synchronizing the System Time in the 7 2 SNTP Network 7 2 SNTP 7 2 1 Description of SNTP
46. enabled the device checks whether it has repeatedly learned the same MAC source addresses at different ports This process very probably indicates a loop situation If the device detects that the threshold value set for the MAC addresses has been exceeded at its ports during the evaluation period a few seconds the device creates an entry in the log file and sends an alarm trap The preset threshold value is 1 Basic Configuration Release 6 0 07 2010 181 Operation Diagnosis 9 10 Reports 9 10 Reports The following reports and buttons are available for the diagnostics Log file The log file is an HTML file in which the device writes all the important device internal events System information The system information is an HTML file containing all system relevant data Download Switch Dump This button allows you to download system information as files in a ZIP archive In service situations these reports provide the technician with the necessary information The following button is available as an alternative for operating the Web based interface Download JAR file This button allows you to download the applet of the Web based interface as a JAR file Afterwards you have the option to start the applet outside a browser This enables you to administer the device even when you have deactivated its Web server for security reasons O Select the Diagnostics Report dialog LI Click Log File to open the HTML file
47. for process control monitoring equipment Remote control of a device via SNMP such as switching on a camera C Select the Diagnostics Signal Contact 1 2 dialog LI In the Mode Signal contact frame you select the Manual setting mode to switch the contact manually O Select Opened in the Manual setting frame to open the contact LI Select Closed in the Manual setting frame to close the contact enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode signal contact 1 mode manual Select the manual setting mode for signal contact 1 signal contact 1 state open Open signal contact 1 signal contact 1 state closed Close signal contact 1 9 3 2 Monitoring the Device Status via the Signal Contact The Device Status option enables you like in the operation monitoring to monitor the device state See on page 159 Monitoring the Device Status via the signal contact Basic Configuration Release 6 0 07 2010 163 Operation Diagnosis 9 3 Out of band Signaling 9 3 3 Monitoring the Device Functions via the Signal Contact Configuring the operation monitoring Select the Diagnostics Signal Contact dialog Select Monitoring correct operation in the Mode signal contact frame to use the contact for operation monitoring In the Monitoring correct operation frame you select the events you want to monitor To monitor the temperature you set the temperature
48. in a new browser window L Click System Information to open the HTML file in a new browser window Basic Configuration 182 Release 6 0 07 2010 Operation Diagnosis 9 10 Reports L Click Download Switch Dump LI Select the directory in which you want to save the switch dump L Click Save The device creates the file name of the switch dumps automatically in the format lt IP address gt _ lt system name gt zip e g for a device of the type PowerMICE 10 0 1 112_PowerMICE 517A80 zip L Click Download JAR File LI Select the directory in which you want to save the applet O Click Save The device creates the file name of the applet automatically in the format lt device type gt lt software variant gt lt software version gt _ lt software revision of applet gt jar e g for a device of type PowerMICE with software variant L3P pmL3P06000_00 jar Basic Configuration Release 6 0 07 2010 183 Operation Diagnosis 9 11 Monitoring Data Traffic at Ports Port Mirroring 9 11 Monitoring Data Traffic at Ports Port Mirroring The port mirroring function enables you to review the data traffic at up to 8 ports of the device for diagnostic purposes The device additionally forwards mirrors the data for these ports to another port This process is also called port mirroring The ports to be reviewed are known as source ports The port to which the data to be reviewed is copied is called t
49. in the list e g the ports currently being used as source ports Default setting port 0 0 no destination port O Select On in the Function frame to switch on the function Default setting Off Basic Configuration Release 6 0 07 2010 185 Operation Diagnosis 9 11 Monitoring Data Traffic at Ports Port Mirroring The Reset configuration button in the dialog allows you to reset all the port mirroring settings of the device to the state on delivery Note When port mirroring is active the specified destination port is used solely for reviewing and does not participate in the normal data traffic Funktion Zielport Can aus Guellport ariv 1 1 23 ta DJ Schreiben Laden Kor Odilfe Figure 54 Port Mirroring dialog Basic Configuration 186 Release 6 0 07 2010 Operation Diagnosis 9 12 Syslog 9 12 Syslog Basic Configuration Release 6 0 07 2010 187 Operation Diagnosis 9 13 Event Log 9 13 Event Log The device allows you to call up a log of the system events The table of the Event Log dialog lists the logged events with a time stamp L Click on Load to update the content of the event log LI Click on Delete to delete the content of the event log Note You have the option to also send the logged events to one or more syslog servers see page 187 Syslog Basic Configuration 188 Release 6 0 07
50. number temperature chassis 6 pin terminal block 50 pcs 943 845 006 AutoConfiguration Adapter ACA 11 943 751 001 AutoConfiguration Adapter ACA 21 USB 943 271 001 HiVision Network Management software 943 471 100 OPC Server software HiOPC 943 055 001 RPS 90 48V HV high voltage PoE power unit 943 979 001 RPS 90 48V HV high voltage PoE power unit 943 979 101 with conformal coating RPS 90 48V LV low voltage PoE power unit 943 980 001 RPS 90 48V LV low voltage PoE power unit with 943 980 101 conformal coating Pocket Guide 280 710 851 Rail Power Supply RPS 30 943 662 003 Rail Power Supply RPS 80 EEC 943 662 080 Rail Power Supply RPS 120 EEC 943 662 120 Terminal cable 943 301 001 Wall mounting plate for mounting the RS22 RS32 on the wall Wall mounting plate width 120 mm 943 971 001 Wall mounting plate width 90 mm 943 971 002 Wall mounting plate width 60 mm 943 971 003 Gigabit ETHERNET SFP Transceiver M SFP SX LC 0 C to 60 C 943 014 001 M SFP SX LC EEC 40 C to 70 C 943 896 001 M SFP MX LC 0 C to 60 C 942 035 001 M SFP LX LC 0 C to 60 C 943 015 001 M SFP LX LC EEC 40 C to 70 C 943 897 001 M SFP LX LC 0 C to 60 C 942 023 001 M SFP LX LC EEC 40 C to 70 C 942 024 001 M SFP LH LC 0 C to 60 C 943 042 001 M SFP LH LC EEC 40 C to 70 C 943 898 001 M SFP LH LC 0 C to 60 C 943 049 001 Fast ETHERNET SFP Transceiver M FAST SFP MM LC 0 C to 60 C 943 865 001 M FAST SFP MM LC
51. of the information in this document Hirschmann can accept no responsibility for damages resulting from the use of the network components or the associated operating software 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 beldensolutions com Printed in Germany Hirschmann Automation and Control GmbH Stuttgarter Str 45 51 72654 Neckartenzlingen Germany Tel 49 1805 141538 RS20 22 30 32 40 039 692 002 17 1010 13 10 10 Contents 1 1 1 2 2 2 2 3 2 4 Safety instructions About this Manual Key Device description Description of the device variants 1 1 1 Combination options for RS20 30 Combination options for RS40 Number of ports and media for RS20 Number of ports and media for RS30 Number of ports and media for RS40 an es een Ce Oo1B WD O evice variants with PoE optional 1 Number of ports and media for devices with PoE 2 PoE power units 1 1 1 1 2 2 Assembly and start up Installing the device 1 Unpacking and checking 2 Installing the SFP modules optional 3 Insert data in label area 4 Adjust DIP switch settings 5 RS20 RS30 RS40 supply voltage and signal contact 6 RS22 RS32 supply voltage and signal contact 7 Installing the device on the DIN rail grounding 8 Dimension drawings 9 Connecting the ferrite 10 Installing th
52. reason frames buffered by the internal switching buffer increasing the aging time for learned unicast destination addresses Basic Configuration 118 Release 6 0 07 2010 Network Load Control 8 3 Rate Limiter 8 3 2 Rate Limiter settings O Select the Switching Rate Limiter dialog 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 Egress Limiter kbit s allows you to enable or disable the output limiter function for all packet types at all ports Basic Configuration Release 6 0 07 2010 119 Network Load Control 8 3 Rate Limiter Setting options per port Ingress Packet Types allows you to select the packet type for which the limit is to apply gt A11 limits the total inbound data volume at this port gt BC limits the broadcast packets received at this port gt BC MC limits broadcast packets and Multicast packets received at this port gt BC MC uUC limits broadcast packets Multicast packets and unknown Unicast packets received at this port gt Ingress Limiter Rate for the inbound packet type selected 0 no ingress limit at this port gt gt 0 maximum inbound traffic rate in kbit s that can be received at this port gt Egress Limiter Rate for broadcast packets gt 0 no rate limit for outbound broadcast packets at this por
53. stored link Note A note emphasizes an important fact or draws your attention to a dependency Courier ASCII representation in user interface ea Execution in the Web based Interface user interface Execution in the Command Line Interface user interface Symbols used WLAN access point tr Router with firewall Switch with firewall Li Router lt Switch x Basic Configuration Release 6 0 07 2010 A ey PY B D l le 10 Bridge Hub A random computer Configuration Computer Server PLC Programmable logic controller I O Robot Basic Configuration Release 6 0 07 2010 Introduction Introduction The device has been developed for practical application in a harsh industrial environment Accordingly the installation process has been kept simple Thanks to the selected default settings you only have to enter a few settings before starting to operate the device Note The changes you make in the dialogs are copied into the volatile memory of the device when you click on Set To save the changes into the permanent memory of the device select the non volatile memory location in the Basic Settings Load Save dialog and click Save Basic Configuration Release 6 0 07 2010 11 Introduction Basic Configuration 12 Release 6 0 07 2010 Access to the user interfaces 1 Access to the user interfaces The device has 3 user interfaces which you can a
54. the ferrite Note For PoE devices with 16 or more ports RS22 16 RS22 17 RS22 24 and RS22 25 To adhere to EMC conformity you connect the ferrite supplied to the 48V output of the voltage supply line see fig 27 LI Insert both cables of the 48V output through the ferrite twice L Lock the ferrite CI The ferrite should be connected as close as possible to the output max distance 50 cm The ferrite can be opened with the key supplied Figure 27 Connecting the ferrite to the voltage supply line 2 1 10 Installing the terminal block start up procedure L Mount the terminal block for the voltage supply and signal contact on the front of the device using the snap lock Make sure that the snap lock snaps into place Connecting the voltage supply via the terminal block starts the operation of the device 2 1 11 Connecting the data lines You can connect terminal devices and other segments at the ports of the device via twisted pair cables or F O cables O Install the data lines according to your requirements 10 100 Mbit s twisted pair connection These connections are RJ45 sockets RS20 22 30 32 40 44 Release 17 10 10 10 100 Mbit s TP ports enable the connection of terminal devices or independent network segments according to the IEEE 802 3 10BASE T 1O00BASE TX standard These ports support Autonegotiation Autopolarity Autocrossing if autonegotiation is activated 100 Mbit s half duplex mode
55. thresholds in the Basics System dialog at the end of the system data O UO OO enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode signal contact 1 monitor all Includes all the possible events in the operation monitoring signal contact 1 trap enable Enables a trap to be sent if the status of the operation monitoring changes Displaying the signal contact s status The device gives you 3 additional options for displaying the status of the signal contact LED display on device display in the Web based interface query in the Command Line Interface Basic Configuration 164 Release 6 0 07 2010 Operation Diagnosis 9 3 Out of band Signaling Basic Configuration Release 6 0 07 2010 165 aU A E Offen Fehler Geschlossen Ok fo C o C 2 9 I Figure 47 Signal Contact dialog exit Switch to the privileged EXEC mode show signal contact 1 Displays the status of the operation monitoring and the setting for the status determination Operation Diagnosis 9 4 Port Status Indication 9 4 Port Status Indication LI Select the Basics System dialog The device view shows the device with the current configuration The symbols underneath the device view represent the status of the individual ports 1B 1 i 2B 22 F 3B 3 AE E Figure 48 Device View Meaning of the symbols s08 The port 10 100 Mbit s 1 10 Gbit s is enabled
56. to help you protect it against unauthorized access Password for SNMP access Telnet Web access disabling Restricted management access HiDiscovery function disabling Port access control via IP or MAC address Basic Configuration Release 6 0 07 2010 75 Protection from Unauthorized Access 6 1 Protecting the device 6 1 Protecting the device If you want to maximize the protection of the device against unauthorized access in just a few steps you can perform some or all of the following steps on the device O Deactivate SNMPv1 and SNMPv2 and select a password for SNMPv3 access other than the standard password see on page 78 Entering the password for SNMP access O Deactivate Telnet access Deactivate web access after you have downloaded the applet for the web based interface onto your management station You can start the web based interface as an independent program and thus have SNMP access to the device see on page 82 Enabling disabling Telnet Web Access O Deactivate HiDiscovery access Note Make sure to retain at least one option to access the device V 24 access is always possible since it cannot be deactivated Basic Configuration 76 Release 6 0 07 2010 Protection from Unauthorized Access 6 2 Password for SNMP access 6 2 Password for SNMP access 6 2 1 Description of password for SNMP access A network management station communicates with the device via the Simple Network Management Protocol SNM
57. with PoE C Rail Switch with gigabit ports with PoE 4 10 100 Mbit s Ethernet 8 10 100 Mbit s Ethernet 9 10 100 Mbit s Ethernet 16 10 100 Mbit s Ethernet 17 10 100 Mbit s Ethernet 24 10 100 Mbit s Ethernet 25 10 100 Mbit s Ethernet 0 1000 Mbit s Ethernet 2 1000 Mbit s Ethernet not for 4 port devices Twisted pair T X RJ45 Multimode FX DSC 100 Mbit s Multimode FX ST 100 Mbit s Singlemode FX DSC 100 Mbit s Singlemode FX ST 100 Mbit s Singlemode FX DSC 100 Mbit s Singlemode Longhaul DSC 100 Mbit s Singlemode Longhaul FX DSC 200 km 100 Mbit s SFP slot 1000 Mbit s SFP slot 100 Mbit s Standard 0 C to 60 C Extended 40 C to 70 C 9 Extended 40 C to 70 C conformal coating 9 6 V DC to 60 V DC or 18 V AC to 30 V AC 47 V DC to 52 V DC PoE CE UL 508 ISA 12 12 01 UL 1604 CE UL 508 ISA 12 12 01 UL 1604 GL Railway along track Sub Station CE UL 508 ISA 12 12 01 UL 1604 GL Railway along track Sub Station Hazardous Location ATEX Enhanced Professional Combination options of device variants RS20 RS30 RS22 RS32 17 rs am o 205 fa sevice vores with two uplink ports you use the Ident column for items 10 11 and for items 12 13 For device variants with three uplink ports you use the Ident 2 column for items 10 11 and the Ident column for items 12 13 For device variants with four uplink ports you use the Ident
58. 0 C D Voltage range 9 6 V DC to 60 V DC or 18 V AC to 30 V AC A Certifications CE UL 508 ISA 12 12 01 UL 1604 E Software variant Enhanced Table 4 Example of RS30 with 2 uplink ports RS30 080206T1TDAE 18 Additional examples of devices with 3 or 4 uplink ports RS20 0900NNM4TDAE for RS20 with 3 uplink ports ST NN 2 Multimode FX ST 100 Mbit s ports 1 and 2 M4 1 Multimode FX ST 100 Mbit s port 3 RS20 22 30 32 40 Release 17 10 10 RS30 240200ZZTDAP for RS30 with 4 uplink ports SFP OO 2 SFP slot 1000 Mbit s ports 1 and 2 ZZ 2 SFP slot 100 Mbit s ports 3 and 4 Example of device with Power over Ethernet RS32 080206T1SPAP for RS32 with 2 uplink ports and PoE O6 1 SFP slot 1000 Mbit s port 1 T1 1 twisted pair TX RJ45 1000 Mbit s port 2 P Voltage range 47 V DC to 52 V DC PoE 1 1 2 Combination options for RS40 The product designation of your device is made from combining the desired product characteristics in accordance with the following table The corresponding short designation is in column 3 Item Characteristic to 4 Product hyphen Number of 10 100 Mbit s ports Number of 1000 Mbit s ports Ast 2nd uplink ports rd 4th uplink ports emperature range oltage range ertification oftware variant ea a es i QO O N Dol a P N oO o ry oj N 2 2 ao el oO ss D D Or RS20 22 30 32 40 Release 17 10 10 Ident R
59. 0009CCCCT RS22 08 RS22 09 RS32 0802 RS22 16 RS22 17 RS32 1602 RS22 24 RS22 25 RS32 2402 RPS 90 48V LV PoE power unit RPS 90 48V HV PoE power unit RS20 0400 RS20 08 RS20 09 RS30 0802 RS20 16 RS20 17 RS30 1602 RS20 24 RS20 25 RS30 2402 RS40 0009CCCCS RS40 0009CCCCE RS40 0009CCCCT RS22 08 RS22 09 RS32 0802 RS22 16 RS22 17 RS32 1602 RS22 24 RS22 25 RS32 2402 RPS 90 48V LV PoE power unit RPS 90 48V HV PoE power unit Operating voltage RS20 RS30 RS40 Rated voltage range DC Max voltage range DC Rated voltage range AC Max voltage range AC Operating voltage RS22 RS32 47 mm x 131 mm x 111 mm 74 mm x 131 mm x 111 mm 110 mm x 131 mm x 111 mm 110 mm x 131 mm x 111 mm 74 mm x 131 mm x 111 mm 110 mm x 131 mm x 111 mm 90 mm x 137 mm x 115 mm 120 mm x 137 mm x 115 mm 120 mm x 137 mm x 115 mm 60 mm x 137 mm x 115 mm 60 mm x 137 mm x 115 mm 400g 410g 600 g 650 g 530 g 600 g 820 g 1150 g 1200 g 770g 740 g 12 to 48 V DC min 9 6 to max 60 V DC 24 V AC min 18 to max 30 V AC Safety extra low voltage SELV redundant inputs disconnected Relevant for North America NEC Class 2 power source max 5A 48 V 47 V DC to 52 V DC Safety extra low voltage SELV redundant inputs disconnected Relevant for North America NEC Class 2 power source max 5A 53 PoE power unit RPS90 48V HV PoE
60. 02 149 218 112 102 03 06 05 14 09 58 00 80 63 1 4 db d9 RAS2_16M101 149 218 112 101 00 80 63 0f 1d b0 RS2_7_103 149 218 112 103 4 TFTP New i static dynamic l ignored A 1 Setting up a DHCP BOOTP Ser ver Listening on Port 67 Figure 64 DHCP server with entries Basic Configuration Release 6 0 07 2010 195 Setting up the Configuration A 2 Setting up a DHCP Server with Environment Option 82 A 2 Setting up a DHCP Server with Option 82 On the CD ROM supplied with the device you will find the software for a DHCP server from the software development company IT Consulting Dr Herbert Hanewinkel You can test the software for 30 calendar days from the date of the first installation and then decide whether you want to purchase a license O To install the DHCP servers on your PC put the CD ROM in the CD drive of your PC and under Additional Software select haneWIN DHCP Server To carry out the installation follow the installation assistant O Start the DHCP Server program haneWIN DHCP Server 2 1 2 File Options window Help Observed MAC addresses Id 2 4 MAC Addhess ld IP Address TFTP New J static dynamic j ignored ZA Listening on Port 67 Figure 65 Start window of the DHCP server Note The installation procedure includes a service that is automatically started in the basic configuration when Windows is activated This service is also a
61. 07 47 System Uptime Interface Current Configured Tagging 1 1 Include Include Tagged 1 2 Exclude Autodetect Untagged 1 3 Include Include Untagged 1 4 Exclude Autodetect Untagged 175 Include Include Untagged 150 Basic Configuration Release 6 0 07 2010 Network Load Control 8 6 VLANs For further information on VLANs see the reference manual and the integrated help function in the program Basic Configuration Release 6 0 07 2010 151 Network Load Control 8 6 VLANs Basic Configuration 152 Release 6 0 07 2010 Operation Diagnosis 9 Operation Diagnosis The device provides you with the following diagnostic tools Sending traps Monitoring the device status Out of band signaling via signal contact Port status indication Event counter at port level Detecting non matching duplex modes SFP status display Topology Discovery Detecting IP address conflicts Detecting loops Reports Monitoring data traffic at a port port mirroring Syslog Event log Basic Configuration Release 6 0 07 2010 153 Operation Diagnosis 9 1 Sending Traps 9 1 Sending Traps If unusual events occur during normal operation of the device they are reported immediately to the management station This is done by means of what are called traps alarm messages that bypass the polling procedure Polling means querying the data stations at regular intervals Traps make it possible to react quickly to critical situatio
62. 1 Loading saving settings 3 1 Loading settings 3 1 Loading settings When it is restarted the device loads its configuration data from the local non volatile memory provided you have not activated BOOTP DHCP and no ACA is connected to the device During operation the device allows you to load settings from the following sources the local non volatile memory from the AutoConfiguration Adapter If an ACA is connected to the device the device automatically loads its configuration from the ACA during the boot procedure a file in the connected network setting on delivery a binary file and the firmware restoration of the configuration on delivery Note When loading a configuration do not access the device until it has loaded the configuration file and has made the new configuration settings Depending on the complexity of the configuration settings this procedure may take 10 to 200 seconds Basic Configuration 52 Release 6 0 07 2010 Loading saving settings 3 1 Loading settings 3 1 1 Loading from the local non volatile memory When loading the configuration data locally the device loads the configuration data from the local non volatile memory if no ACA is connected to the device O Select the Basics Load Save dialog L In the Load frame click from Device O Click Restore enable Switch to the Privileged EXEC mode copy nvram startup config The device loads the configuration data from the system runni
63. 1 200 Burned In MAC AddreSs 2 eee eee eee eee ee ee 00 80 63 51 7A 80 Network Configuration Protocol BootP DHCP None DHCP Client ID same as SNMP System Name PowerMICE 517A80 Network Configuration Protocol HiDiscovery Read Write Management VLAN TD iigeswd edie ee delta wa Bal Wele eee dees 1 Management VLAN Priority eee eee ee ee ee eee 7 Management IP DSCP Value ee eee ee ee eee 0 be cs0 Web Mode ee cece ee ce ee ee ee eee eee eee Enable JavaScript Modes dess dasa daea se ee Sw ees See ws ere Ses Enable Configuring Layer 3 management priority LI Select the QoS Priority Global dialog L Inthe line TP DSCP value for management packets you enter the IP DSCP value with which the device sends management packets enable network prio rity ip dscp cs7 exit show network Switch to the Privileged EXEC mode Assign the value cs7 to the management priority so that management packets with the highest priority are handled Switch to the privileged EXEC mode Displays the management VLAN priority System IP AGAreSS sca ses cee a ea de ee ee ee es 1 0 0h 6 Subnet MAS bo cise scecsie bed tenes serie talon ee verdes eres a ee T 259 6299 2595 60 Default GaCeway s icici cdetedeaddciadeacdededaae 1001 200 Burned In MAC AdAKEGS Sis css ewe ee oN eee ee eee ee eas 00 80 63 51 7A 80 Network Config
64. 1 4 Number of ports and media for RS30 1 FAULTA RS30 24V P1 OV OV 1 24V P2 2 ye p Stand by 7al 1 Ls RM Stand Maa an 9 A IP ADDRESS Aufkleber MAC Adresse 6 RS30 0802T1T1 D RS30 08020606 D RS30 080206T1 D Figure 6 Device variants with 2 1000 Mbit s ports and 8 10 100 Mbit s ports RS30 0802 1 plug in terminal block 6 pin 2 LED display elements 3 2 pin DIP switch 4 USB interface 5 V 24 connection for external management 6 ports in compliance with 10 100BASE T X RJ45 connections 7 port 1 port 2 free choice of connections T1 Twisted pair T X RJ45 10 100 1000 Mbit s O6 SX LX SFP slot 1000 Mbit s 8 MAC address field 9 IP address field RS20 22 30 32 40 24 Release 17 10 10 Stand by RM Stand byl IP AD DRESS Aufkleber MAC Adresse RS30 1602T1T1 D RS30 16020606 D RS30 160206T1 D Figure 7 Device variants with 2 1000 Mbit s ports and 16 10 100 Mbit s ports RS30 1602 1 to 9 see fig 6 FauLTA RS30 s2avier ov OV Tezavie2 P FAULT p neS OS 3 RM Stand M IP ADDRESS Aufkleber MAC Adresse RS30 2402T1T1 D RS30 24020606 D RS30 240206T1 D Figure 8 Device variants with 2 1000 Mbit s por
65. 2 column for items 10 11 and for items 12 13 Not in combination with 04 100 Mbit s Ethernet The last four ports of the device have PoE Power over Ethernet For RS20 0900 RS20 1700 RS20 2500 RS22 0900 RS22 1700 RS22 2500 tt Devices with ports with product code E2 or EE only certification A available see product code for item eh In connection with 2nd uplink port ZZ and 1st uplink port OO Not when using GG or G2 transceivers _ Temperature range for PoE capable devices RS22 RS32 40 C to 50 C Not for PoE capable devices RS22 RS32 For PoE capable devices RS22 RS32 Without railway certification EN50155 Train Examples for product name RS20 Rail Switch without gigabit ports 09 9 100 Mbit s Ethernet ports 00 0 1000 Mbit s Ethernet ports MM Port 1 2 2 Multimode FX DSC 100 Mbit s M2 Port 3 Multimode FX DSC 100 Mbit s S Temperature range standard 0 C to 60 C D Voltage range 9 6 V DC to 60 V DC or 18 V AC to 30 V AC A Certifications CE UL 508 ISA 12 12 01 UL 1604 P Software variant Professional Table 3 Example of RS20 with 3 uplink ports RS20 O900MMM2SDAP RS30 Rail Switch with gigabit ports 08 8 100 Mbit s Ethernet ports 02 2 1000 Mbit s Ethernet ports O6 Port 1 SFP slot 1000 Mbit s 1 Port 2 twisted pair TX RJ45 connector 1000 Mbit s Temperature range extended 40 C to 7
66. 4 CLI screen after login 18 1 2 Command Line Interface no form nd Help Command help displays all options the normal and command forms For please consult the Basic Configuration Release 6 0 07 2010 Access to the user interfaces 1 3 Web based Interface 1 3 Web based Interface The user friendly Web based interface gives you the option of operating the device from any location in the network via a standard browser such as Mozilla Firefox or Microsoft Internet Explorer As a universal access tool the Web browser uses an applet which communicates with the device via the Simple Network Management Protocol SNMP The Web based interface allows you to graphically configure the device E Opening the Web based Interface To open the Web based interface you need a Web browser a program that can read hypertext for example Mozilla Firefox version 1 or later or Microsoft Internet Explorer version 6 or later Note The Web based interface uses Java software 6 Java Runtime Environment Version 1 6 x Install the software from the enclosed CD ROM To do this you go to Additional Software select Java Runtime Environment and click on Installation Device Software Java Runtime Environment 5 Device Info AddOn Software AddOn Info JAVA 2 PLATFORM STANDARD EDITION Imprint haneWIN DHCP Server 2 0 29 Instal Adobe Acrobat Reader Exit ae VOTER aera Website Figure 5 Installing
67. 8 1 1 192 168 1 2 Request interval 30 30 30 Accept Broadcasts No No No Table 5 Settings for the example see fig 25 Basic Configuration Release 6 0 07 2010 97 Synchronizing the System Time in the 7 3 Precision Time Protocol Network 7 3 Precision Time Protocol 7 3 1 Description of PTP Functions 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 assumes one clock is the most accurate and thus enables precise synchronization of all clocks in a LAN This procedure enable the synchronization of the clocks involved to an accuracy of a few 100 ns The synchronization messages have virtually no effect on the network load PTP uses Multicast communication Factors influencing precision are Accuracy of the reference clock IEEE 1588 classifies clocks according to their accuracy An algorithm that measures the accuracy of the clocks available in the network specifies the most accurate clock as the Grandmaster clock Basic Configuration 98 Release 6 0 07 2010 Synchronizing the System Time in the 7 3 Precision Time Protocol Network PTPv1 PTPv2 Specification Stratum Clock class number 0 priority 1 For temporary special purposes in order to assign a higher 0 accuracy to one clock than to all other clocks in the network 1 6 Indicates the reference clock with the highest degree of accuracy
68. 8 b its Class E Figure 7 Bit representation of the IP address An IP address belongs to class A if its first bit is a zero i e the first decimal number is less than 128 The IP address belongs to class B if the first bit is a one and the second bit is a zero i e the first decimal number is between 128 and 191 The IP address belongs to class C if the first two bits are a one i e the first decimal number is higher than 191 Assigning the host address host id is the responsibility of the network operator He alone is responsible for the uniqueness of the IP addresses he assigns 2 1 2 Netmask Routers and gateways subdivide large networks into subnetworks The netmask assigns the IP addresses of the individual devices to a particular subnetwork The division into subnetworks with the aid of the netmask is performed in much the same way as the division of the network addresses net id into classes A to C The bits of the host address host id that represent the mask are set to one The remaining bits of the host address in the netmask are set to zero see the following examples Basic Configuration 26 Release 6 0 07 2010 Entering the IP Parameters 2 1 IP Parameter Basics Example of a netmask Decimal notation 255 255 192 0 Binary notation 11111111 11111111 11000000 00000000 es Subnetwork mask bits Class B Example of IP addresses with subnetwork assignment when the above su
69. 90 you will find an example for the configuration of a BOOTP DHCP server Basic Configuration 40 Release 6 0 07 2010 Entering the IP Parameters 2 5 System configuration via BOOTP Load default configuration Device in initalization Device runs with settings from local flash Save IP parameter and config file URL locally Reply from DHCP BOOTP server initialize IP stack with IP parameters Device is manageable Figure 13 Flow chart for the BOOTP DHCP process part 1 see fig 14 Basic Configuration Release 6 0 07 2010 41 Entering the IP Parameters 2 5 System configuration via BOOTP Load remote Start tftp process with config file URL of DHCP URL of DHCP Load transferred config file Save transferred config file local and set boot configuration to local Loading of configurations data is complete Figure 14 Flow chart for the BOOTP DHCP process part 2 Basic Configuration 42 Release 6 0 07 2010 Entering the IP Parameters 2 5 System configuration via BOOTP Note The loading process started by DHCP BOOTP see on page 190 Setting up a DHCP BOOTP Server shows the selection of from URL amp save locally in the Load frame If you get an error message when saving a configuration this could be due to an active loading process DHCP BOOTP only finishes a loading process when a valid configuration has been loaded If DHCP BOOTP does not find a val
70. AN1 exit Switch to the privileged EXEC mode show vlan brief Display the current VLAN configuration Maxa VLAN LTDa ue Boo oe Pas ce op oad a onde ns Satay ot show Sanda ose sae a 4042 Max supported VLANS ee ee ee ee ee eens 255 Number of currently configured VLANS 3 VLAN 0 Transparent Mode Prio Tagged Frames Disabled VLAN ID VLAN Name VLAN Type VLAN Creation Time 1 LAN1 Default O days 00 00 05 2 LAN2 Static 0 days 02 44 29 3 LAN3 Static O days 02 52 26 Basic Configuration Release 6 0 07 2010 147 Network Load Control 8 6 VLANs LI Configuring the ports Set Reload Create entry Delete entry Help Figure 43 Defining the VLAN membership of the ports L Assign the ports of the device to the corresponding VLANs by clicking on the related table cell to open the selection menu and define the status The selection options are gt currently nota member of this VLAN GVRP allowed gt T member of VLAN send data packets with tag gt u Member of the VLAN send data packets without tag gt F nota member of the VLAN also disabled for GVRP Because terminal devices usually do not interpret data packets with a tag you select the U setting You only select the T setting at the uplink port at which the VLANs communicate with each other L Click Set to temporarily save the entry in the configuration O Select the Switching VLAN Port dialog Basic Configurat
71. Command Line Interface L Connect the device to a terminal or to the COM port of a PC using terminal emulation based on VT100 and press any key see on page 14 Opening the system monitor or call up the Command Line Interface via Telnet A window for entering the user name appears on the screen Up to five users can access the Command Line Interface Basic Configuration 16 Release 6 0 07 2010 Access to the user interfaces 1 2 Command Line Interface Copyright c 2004 2009 Hirschmann Automation and Control GmbH All rights reserved PowerMICE Release L3P 05 1 00 Build date 2009 10 11 12 13 System Name PowerMICE Mgmt IP 10 0 1 105 1 Router IP 0 0 0 0 Base MAC x o 008063 oL 745500 System Time 2009 10 11 13 14 15 User Figure 3 Logging in to the Command Line Interface program LI Enter a user name The default setting for the user name is admin Press the Enter key O Enter the password The default setting for the password is private Press the Enter key You can change the user name and the password later in the Command Line Interface Please note that these entries are case sensitive The start screen appears Basic Configuration Release 6 0 07 2010 17 Access to the user interfaces NOTE R that are valid Enter for Comma for documentation Hirschmann Product the syntax of a part gt ticular command Figure
72. Configuration 190 Release 6 0 07 2010 Setting up the Configuration A 1 Setting up a DHCP BOOTP Ser Environment ver L Enter the settings shown in the illustration and click OK Preferences 2 x I Accept Relay Agent Information Option 82 T Disable Client Auto Configuration Option 116 I Respond to DHCP requests only I Vary dynamic IP address of clients F Check that a selected dynamic IP address is not in use Abbrechen Ubemehmen Figure 56 DHCP setting LI To enter the configuration profiles select Options Configuration Profiles in the menu bar LI Enter the name of the new configuration profile and click Add Configuration profiles x Profile Default Client Profile Edit Bemove Ps2 71 03 Add Figure 57 Adding configuration profiles L Enter the network mask and click Accept Basic Configuration Release 6 0 07 2010 191 Setting up the Configuration A 1 Setting up a DHCP BOOTP Ser Environment ver Basic Profile DNS NetBios Server Boot Other r Dynamic IP Addresses From Until Lease time s 36000 Subnet mask 255 255 255 0 Gateway Address Backup Gateway 1 Backup Gateway 2 Abbrechen Figure 58 Network mask in the configuration profile L Select the Boot tab page O Enter the IP address of your tftp server L Enter the path and the file name for the configuration file O Click Apply and then OK RS2_7_103 21
73. DP User Datagramm Protocol Transport Layer IP Internet Protocol Network Layer MAC Media Access Control Phy Physical Layer Figure 27 Delay and jitter for clock synchronization Independently of the physical communication paths the PTP provides logical communication paths which you define by setting up PTP subdomains Subdomains are used to form groups of clocks that are time independent from the rest of the domain Typically the clocks in a group use the same communication paths as other clocks Basic Configuration 100 Release 6 0 07 2010 Synchronizing the System Time in the 7 3 Precision Time Protocol Network GPS Reference Grandmaster Clock Switch P mae Boundary Clock PLC D Ordinary Clock l D Figure 28 PTP Subdomains Basic Configuration Release 6 0 07 2010 101 Synchronizing the System Time in the 7 3 Precision Time Protocol Network Basic Configuration 102 Release 6 0 07 2010 Network Load Control 8 Network Load Control To optimize the data transmission the device provides you with the following functions for controlling the network load Settings for direct packet distribution MAC address filter Multicast settings Rate limiter Prioritization QoS Flow control Virtual LANs VLANs Basic Configuration Release 6 0 07 2010 103 Network Load Control 8 1 Direct Packet Distribution 8 1 Direct Packet Distribution With direct packet distribution you he
74. F FAQ 217 Faulty device replacement 50 FDB 106 Filter 106 Filter table 106 First installation 23 Flash memory 56 65 Flow control 132 132 Forwarding database 106 G Gateway 26 32 Generic object classes 206 GMRP 108 Grandmaster 98 H HaneWin 190 196 Hardware address 40 Hardware reset 154 HiDiscovery 34 83 83 HIPER Ring 7 HIPER Ring source for alarms 158 213 Index HiVision 8 45 Host address 26 i in band 16 l IANA 25 IEEE 1588 time 90 IEEE 802 1 Q 122 IEEE MAC address 174 IGMP 110 IGMP Querier 112 IGMP Snooping 108 110 110 Industry Protocols 7 Instantiation 206 Internet Assigned Numbers Authority 25 Internet service provider 25 IP Address 44 IP address 25 32 40 178 IP header 121 124 IP Parameter 23 IP Parameters device network settings 48 IP Header 125 ISO OSI layer model 29 J Java 20 Java Runtime Environment 19 JavaScript 20 L LACNIC 25 Leave 110 110 Link monitoring 159 162 LLDP 176 Local clock 99 Login 20 M MAC destination address 29 Media module for modular devices 158 Message 154 MRP 7 Multicast 95 106 108 110 N Netmask 26 32 Network address 25 Network Management 45 Network Management Software 8 Network topology 47 NTP 92 94 214 O Object classes Object description Object ID Operating mode Operation monitoring Option 82 Overload protection oO out of band P Password 206 206 206 71 162 24 47 196 132 16 17 20 58 79 Pa
75. HCP Server with Environment Option 82 Add static entries With static entries you can assign clients with known hardware address or identifier a fixed IP address and configuration profile The assigned IP addresses must not overlap with the dynamic address ranges Identifiers or hardware addresses must be specified byte by byte in hexadecimal notation For MAC hardware addresses the bytes must be separated by a dash or colon F Ceni centier M Circuit Identifier Remote Identifier or Hardware address foooon 040080631 09ad IP Address figg 21 8 112 100 Optional Configuration Profile v Remark T Redundant entry allow entry with an existing IP address OK Cancel Figure 69 Entering the addresses PLC Switch gt Option 82 IP 149 218 112 100 Nt DHCP Server 149 218 112 1 amp IP 149 218 112 100 Figure 70 Application example of using Option 82 Basic Configuration Release 6 0 07 2010 199 Setting up the Configuration A 3 TFTP Server for Software Up Environment dates A 3 TFTP Server for Software Updates On delivery the device software is held in the local flash memory The device boots the software from the flash memory Software updates can be performed via a tftp server This presupposes that a tftp server has been installed in the connected network and that it is active Note An alternative to the tftp updat
76. N 60529 taking into account the environmental conditions under which the equipment will be used LI When the temperature under rated conditions exceeds 70 C at the cable or conduit entry point or 80 C at the branching point of the conductors the temperature specification of the selected cable shall be in compliance with the actual measured temperature values LO Provisions shall be made to prevent the rated voltage from being exceeded by transient disturbances of more than 40 RS20 22 30 32 40 Release 17 10 10 Housing Warning Never insert sharp objects small screwdrivers wires etc into the inside of the product There is the risk of an electric shock Warning AN When installing the device make sure the ventilation slots remain free as otherwise damage can occur through overheating Only technicians authorized by the manufacturer are permitted to open the housing The housing is grounded via the separate ground screw on the bottom left of the front panel For the ground conductor use a cable with a cross section of at least 1 0 mm L The clearance to the ventilation slots of the housing must be at least 10 cm 3 94 in The device must be installed in the vertical position If installed in a living area or office environment the device must be operated exclusively in switch cabinets with fire protection characteristics in accordance with EN 60950 1 L L Environment The device may only be operated at th
77. P Every SNMP packet contains the IP address of the sending computer and the password with which the sender of the packet wants to access the device MIB The device receives the SNMP packet and compares the IP address of the sending computer and the password with the entries in the device MIB If the password has the appropriate access right and if the IP address of the sending computer has been entered then the device will allow access In the delivery state the device is accessible via the password public read only and private read and write to every computer To help protect your device from unwanted access O First define a new password with which you can access from your computer with all rights L Treat this password as confidential because everyone who knows the password can access the device MIB with the IP address of your computer L Limit the access rights of the known passwords or delete their entries Basic Configuration Release 6 0 07 2010 TT Protection from Unauthorized Access 6 2 Password for SNMP access 6 2 2 Entering the password for SNMP access O Select the Security Password SNMP Access dialog This dialog gives you the option of changing the read and read write passwords for access to the device via the Web based interface via the CLI and via SNMPv3 SNMP version 3 Please note that passwords are case sensitive Set different passwords for the read password and the read write password so that
78. Plus terminal of the supply voltage external fuse for supply voltages gt 125 V DC Table 9 Connecting the high voltage supply voltage at POE power unit RPS90 48V HV DC voltage LI First connect the protective conductor to the protective conductor terminal L Connect the supply voltage via the 3 pin terminal block Pay attention to the L and N connections LO If the neutral conductor or the minus terminal of the supply voltage is not grounded install a suitable fuse in the input line LI For supply voltages gt 125 VDC Install a suitable external fuse in the supply voltage input line of the plus terminal O Use a supply cable with a maximum length of 2 meters to the power unit RS22 RS32 supply voltage The RPS90 48V LV and RPS90 48V HV PoE power supply units provide an output voltage of typically 48 V DC for supplying the RS22 RS32 devices with the PoE voltage Caution AN Note the safety instructions see page 4 Notes on safety and only connect a supply voltage that corresponds to the type plate of your device Make sure that the contact load capability of the signal contact is not exceeded see page 53 Technical data RS20 22 30 32 40 36 Release 17 10 10 Figure Pin Assignment Voltage range 1 2 Minus terminal of the output voltage Output voltage PoE voltage gt 3 4 Plus terminal of the output voltage range 48 V DC to 54 V DC t i default 48 V DC Table 10 Output voltage of
79. S22 2400 1xFX port 1xTX port 78 9 W 59 1 Btu IT h RS22 2400 2xFX port 80 1 W 66 6 Btu IT h RS32 0802 2xTX port 74 5 W 44 1 Btu IT h RS32 0802 1xFX port 1xTX port 74 2 W 43 1 Btu IT h RS32 0802 2xFX port 73 9 W 42 1 Btu IT h RS32 1602 2xTX port 78 6 W 58 1 Btu IT h RS32 1602 1xFX port 1xTX port 78 3 W 57 1 Btu IT h RS32 1602 2xFX port 78 0 W 56 1 Btu IT h RS32 2402 2xTX port 81 3 W 67 3 Btu IT h RS32 2402 1xFX port 1xTX port 81 0 W 66 3 Btu IT h RS32 2402 2xFX port 80 7 W 65 3 Btu IT h 3 uplink ports RS22 0900 3xFX port 75 2 W 46 5 Btu IT h RS22 1700 3xFX port 79 3 W 60 4 Btu IT h RS22 2500 3xFX port 82 0 W 69 7 Btu IT h 4 uplink ports RS32 0802 4xFX port 78 3 W 57 0 Btu IT h RS32 1602 4xFX port 82 4 W 71 0 Btu IT h RS32 2402 4xFX port 85 1 W 80 2 Btu IT h Table 20 Power consumption power output RS22 RS32 with 4 x ClassO PD powered device Scope of delivery Device Scope of delivery RS20 RS30 RS40 Device RS22 or RS32 Terminal block for supply voltage and signal contact Installation user manual and CD ROM RS22 16 RS22 17 Additionally ferrite with key RS22 24 RS22 25 Order numbers product description See table on page 16 Combination options for RS20 30 and table on page 19 Combination options for RS40 RS 20 22 30 32 40 Release 17 10 10 Accessories Name Operating Order
80. S40 00 09 CC olimjon I gt m Property Rail Switch with gigabit ports O 10 100 Mbit s Ethernet 9 1000 Mbit s Ethernet 2 combo port multirate SFP slot 100 1000 Mbit s alternatively twisted pair RJ45 socket 10 100 1000 Mbit s 2 combo port multirate SFP slot 100 1000 Mbit s alternatively twisted pair RJ45 socket 10 100 1000 Mbit s Standard 0 C to 60 C Extended 40 C to 70 C Extended 40 C to 70 C conformal coating 9 6 V DC to 60 V DC or 18 V AC to 30 V AC CE UL 508 ISA 12 12 01 UL 1604 CE UL 508 GL Railway along track Sub Station Pending ISA 12 12 01 UL 1604 CE UL 508 GL Railway along track Sub Station Pending ISA 12 12 01 UL 1604 Hazardous Location ATEX Enhanced Professional Combination options for the device variants of the RS40 19 E Examples for product name RS40 Rail Switch with gigabit ports 00 0 100 Mbit s Ethernet ports 09 9 1000 Mbit s Ethernet ports CC Ports 1 2 combo port SFP slot 100 1000 Mbit s alternatively RJ45 connector 10 100 1000 Mbit s Ports 3 4 combo port SFP slot 100 1000 Mbit s alternatively RJ45 connector 10 100 1000 Mbit s Temperature range extended 40 C to 70 C with conformal coating Voltage range 9 6 V DC to 60 V DC or 18 V AC to 30 V AC Certifications CE UL 508 ISA 12 12 01 UL 1604 Software variant Professional Table 6 Example of RS40 with 4 uplink port
81. Stand by On Figure 15 2 pin DIP switch Switch Switch Ring Coup Ring Coupli Ring Control Coup Software RM stand by redun ling Manag ng port port ling configuration position position dancy switch er Manag port er OFF OFF on on off off 1 2 ON OFF on on on off 1 2 OFF ON on on off on 1 2 3 4 ON ON SW config has priority over DIP switch configuration State on delivery both DIP switches ON LI Before starting operation of the device check whether the default settings of the DIP switch correspond to your requirements 2 1 5 RS20 RS30 RS40 supply voltage and signal contact The supply voltage and the signal contact are connected via a 6 pin terminal block with a snap lock Caution AN Note the safety instructions see page 4 Notes on safety and only connect a supply voltage that corresponds to the type plate of your device Make sure that the contact load capability of the signal contact is not exceeded see page 53 Technical data Supply voltage for RS20 RS30 RS40 Redundant power supplies can be used Both inputs are uncoupled There is no distributed load With redundant supply the power supply unit supplies the device only with the higher output voltage The supply voltage is electrically isolated from the housing See Insulation voltage in chapter Technical data on page 53 You can choose between DC or AC voltage when connecting the supply voltage You use the 24V and OV pins to conne
82. Table 16 F O port 10OOBASE FX Product Wave Fiber System Expansion Fiber data code length attenuatio M FAST n SFP MMI LC MM 1310nm 50 125 um 0 8 dB 0 5 km 1 0 dB km 800 MHz km MMI LC MM 1310 nm 62 5 125 um 0 11 dB 0 4 km 1 0 dB km 500 MHz km SM LC SM 1310nm 9 125um 0 13 dB 0 25 km 0 4 dB km 3 5 ps nm km SM SM 1310nm 9 125 um 10 29dB 25 65km 0 4 dB km 3 5 ps nm km LC LH LC SM 1550nm_ 9 125 um 10 29dB 40 104km 0 25 dB km 19 ps nm km Table 17 Fiber port 1OOBASE FX SFP fiber optic Fast ETHERNET Transceiver RS20 22 30 32 40 56 Release 17 10 10 Product Wave Fiber System Expansion Fiber data code length attenuatio M SFP n SX LC MM 850nm 50 125um 0 7 5dB 0 550m 3 0 dB km 400 MHz km SX LC MM 850nm 62 5 125 um 0 7 5dB 0 275 m 3 2 dB km 200 MHz km MX LC MM 1310nm 50 125um 0 8 dB 2 km 1 0 dB km 500 MHz km MX LC MM 1310nm_ 62 5 125 um 0 8 dB 1 km 1 0 dB km 500 MHz km LX LC MM 1310 nm 50 125 um 0 11 dB 0 550 m 1 0 dB km 800 MHz km LX LC MM 1310 nm 62 5 125 um 0 11 dB 0 550 m 1 0 dB km 500 MHz km LX LC SM 1310nm 9 125um 0 11 dB 0 20 km 0 4 dB km 3 5 ps nm km LX LC SM 1310nm 9 125 um 5 20 dB 14 42 km 0 4 dB km 3 5 ps nm km LH LC LH 1550nm 9 125 um 6 22dB 24 72km_ 0 25 dB km 19 ps nm km LH LC LH 1550nm 9 125 um 15 30 dB 71 108 km 0 25 dB km 19 ps nm km LH LC LH 1550nm 9 125 um 15 30 dB 71 128km 0 21 dB km typical 19 ps nm km Ta
83. a E ea E eee Hirschmann Automation and Control GmbH System Up Time vnc tose se se Veda a Da Dade sas O days 0 hrs 45 mins 57 secs System Date and Time local time zone 2009 11 12 14 15 16 System IP Address eee ee ee eee 100 113 Boot Software Release ee ee ee ee ee ee eee L2B 05 2 00 Boot Software Build Date 0 2009 11 12 13 14 OS Gottware Release 4 oii cnadeeadasedauadaewd L2B 03 1 00 OS SoGfEware Build DAES Sissies oer a ee tatle ee ore ees 2009 11 12 13 14 Hardware ReEViSiONn ec eee tee ees 1 22 4 0103 Hardware DESCETPELON 234 de addasnddasncaddaddaae RS20 1600T1T1SDAEHH Serial Number eese serae inaa a eR ES OD 943434023000001191 Base MAC AdGPES Seis ese o 48 oce oe ore Se eee dace ee ener 00 80 63 1F 10 54 Number of MAC AddreSSeS 2 eee ee eee 32 0x20 Basic Configuration Release 6 0 07 2010 61 Loading Software Updates Loading the software The device gives you 4 options for loading the software manually from the ACA 21 USB out of band automatically from the ACA 21 USB out of band via TFTP from a tftp server in band and via a file selection dialog from your PC Note The existing configuration of the device is still there after the new software is installed Basic Configuration 62 Release 6 0 07 2010 Loading Software Updates 4 1 Loading the Software manually from the ACA 4 1 Loading the Software manually from the ACA You can connect the ACA 21 USB to
84. a USB port of your PC like a conventional USB stick and copy the device software into the main directory of the ACA 12 USB L Connect the ACA 21 USB onto which you copied the device software with the USB port of the device L Open the system monitor see page 14 Opening the system monitor LI Select 2 and press the Enter key to copy the software from the ACA 21 USB into the local memory of the device At the end of the update the system monitor asks you to press any key to continue O Select 3 to start the new software on the device The system monitor offers you additional options in connection with the software on your device selecting the software to be loaded starting the software performing a cold start Basic Configuration Release 6 0 07 2010 63 Loading Software Updates 4 1 Loading the Software manually from the ACA 4 1 1 Selecting the software to be loaded In this menu item of the system monitor you select one of two possible software releases that you want to load The following window appears on the screen Select Operating System Image Available OS Selected 05 0 00 2009 08 07 06 05 Backup 04 2 00 2009 07 06 06 05 Locally selected 05 0 00 2009 08 07 06 05 Swap OS images Copy image to backup Test stored images in Flash mem Test stored images in USB mem Apply and store selection Cancel selection Gr UT WBN TE Figure 18 Update operating system screen displa
85. a selectable DSC ST RJ45 RS30 2 Ports 1 and 2 8 16 24 10 100 Mbit s 1000 Mbit s TP RJ45 media selectable SFP RJ45 4 Ports 1 2 3 4 6 14 22 10 100 Mbit s 2x100 1000 Mbit s TP RJ45 2x 100 Mbit s F O SFP RS32 2 Ports 1 and 2 8 16 24 10 100 Mbit s 1000 Mbit s TP RJ45 media selectable SFP RJ45 4 Ports 1 2 3 4 6 14 22 10 100 Mbit s 2x100 1000 Mbit s TP RJ45 2x 100 Mbit s F O SFP RS40 4 Ports 1 to 4 5 10 100 4 combo ports 1000 Mbit s 100 1000 Mbit s TP RJ45 F O SFP 10 100 1000 Mbit s TP RJ45 Table 1 Number and type of ports RS20 22 30 32 40 Release 17 10 10 PoE ports included Numbe Type r 10 100 Mbit s TP RJ45 10 100 Mbit s TP RJ45 10 100 Mbit s TP RJ45 10 100 Mbit s TP RJ45 15 The devices also provide you with the following options for selecting the variant you desire Operating temperature Standard 0 C to 60 C Extended 40 C to 70 C Extended with conformal 40 C to 70 C coating Extended 40 C to 50 C with PoE devices Operating voltage Standard 9 6 to 60 V DC or 18 to 30 V AC Safety extra low voltage SELV redundant inputs disconnected PoE 48 V 47 V DC to 52 V DC Certifications declarations CE UL508 ISA 12 12 01 UL1604 CE UL508 ISA 12 12 01 UL1604 Germanischer Lloyd GL IEC EN 61850 3 declaration sub station IEEE 1613 sub station EN 50121 4 railway along track CE UL508 ISA 12 12 01 UL1604 Germ
86. 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 If you set identical passwords when you attempt to write this data the device reports a general error The Web based interface and the user interface CLI use the same passwords as SNMPv3 for the users admin and user C Select Modify Read Only Password User to enter the read password LI Enter the new read password in the New Password line and repeat your entry in the Please retype line L Select Modify Read Write Password Admin to enter the read write password L Enter the read write password and repeat your entry _ Select password CLI WEB SNMP Modify read only passwori d user Modify read write password admin sa Help Figure 21 Password SNMP Access dialog Basic Configuration 78 Release 6 0 07 2010 Protection from Unauthorized Access 6 2 Password for SNMP access Note If you do not know a password with read write access you will not have write access to the device Note For security reasons the device does not display the passwords Make a note of every change You cannot access the device without a valid password Note For security reasons SNMPv3 encrypts the password With the SNMPv1 or SNMP v2 setting in the dialog Security SNMPv1 v2 access the device transfer
87. ad U 110 230 VAC T U 60 250 VDC Pi u ginal O OM smi RO r stot y u RS30 0802 RS20 2400 RS20 0900 RS20 0800 RS20 22 30 32 40 Technical Support Release 17 10 10 HAC Support Belden com The naming of copyrighted trademarks in this manual even when not specially indicated should not be taken to mean that these names may be considered as free in the sense of the trademark and tradename protection law and hence that they may be freely used by anyone 2010 Hirschmann Automation and Control GmbH Manuals and software are protected by copyright All rights reserved The copying reproduction translation conversion into any electronic medium or machine scannable form is not permitted either in whole or in part An exception is the preparation of a backup copy of the software for your own use For devices with embedded software the end user license agreement on the enclosed CD applies The performance features described here are binding only if they have been expressly agreed when the contract was made This document was produced by Hirschmann Automation and Control GmbH according to the best of the company s knowledge Hirschmann reserves the right to change the contents of this document without prior notice Hirschmann can give no guarantee in respect of the correctness or accuracy
88. age is supplied redundantly Mount the devices by simply snapping them onto a DIN rail mounting them on a wall only RS22 RS32 Depending on the device variant you can choose various media to connect terminal devices and other infrastructure components twisted pair cable multimode F O singlemode F O The twisted pair ports support Autocrossing Autonegotiation Autopolarity There are a number of convenient options for managing the device Administer your devices via a Web browser Telnet management software e g HiVision a V 24 interface locally on the Switch The HIPER Ring redundancy concept enables a quick reconfiguration With one additional connection projection remains simple RS20 22 30 32 40 12 Release 17 10 10 Product configuration data can be provided by diagnosis displays displaying the operating parameters a label area for the IP address Depending on the software you choose the devices provide you with a large range of functions Redundancy functions Rapid Spanning Tree Protocol RSTP Redundant ring structure HIPER Ring Redundant coupling Link aggregation Redundant power supply Security Protection from unauthorized access Blocking of unauthorized messages MAC or IP based Synchronized system time in the network Network load control Operation diagnosis Diagnostics hardware self testing Reset Priority VLAN Topology Discovery Web based Interface Command Line Interface CLI SNMP 802 1x p
89. ames Priority Traffic class IEEE 802 1D traffic type entered default setting 0 1 Best effort default 1 0 Background 2 0 Standard 3 1 Excellent effort business critical 4 2 Controlled load streaming multimedia 5 2 Video less than 100 milliseconds of latency and jitter 6 3 Voice less than 10 milliseconds of latency and jitter 7 3 Network control reserved traffic Table 8 Assignment of the priority entered in the tag to the traffic classes Note Network protocols and redundancy mechanisms use the highest traffic class 3 Therefore select other traffic classes for application data Basic Configuration 122 Release 6 0 07 2010 Network Load Control 8 4 QoS Priority Od lt g Xe ea P x N a a p K a amp We ay p gt X Ko gt oe oe X R RY CLS AS Eh eh GPM gM KAM ok o Fy aWel elald msmwomas min 64 max 1522 Octets Figure 33 Ethernet data packet with tag o RNG Rod A ee ee N D RY O gt AO o O ON amp go g amp amp C SA D Y a Mme y N xb t 4 Octets Figure 34 Tag format When using VLAN prioritizing note the following special features End to end prioritizing requires the VLAN tags to be transmitted to the entire network which means that all network components must be VLAN capable Basic Configuration Release 6 0 07 2010 123 Network Load Control 8 4 QoS Priority Routers cannot receive or send packets with VLAN tags via port
90. anischer Lloyd GL IEC EN 61850 3 declaration sub station IEEE 1613 sub station EN 50121 4 railway along track ATEX RL 94 9 EG hazardous location Software variant Enhanced Professional The devices comply with the specifications of the standard s ISO IEC 8802 03 10BASE T 100BASE TX 1000BASE T ISO IEC 8802 03 100BASE FX ISO IEC 8802 03 1000BASE SX LX 1 1 1 Combination options for RS20 30 The product designation of your device is made from combining the desired product characteristics in accordance with the following table You will find the corresponding short designation in columns 3 and 4 RS20 22 30 32 40 16 Release 17 10 10 Item Characteristic Ident 12 and 13 See items 10 and _ _ emperature range S T E 5 oltage range incl D maximum olerances P ertification A H B oftware variant E P Ato4 Product RS20 E RS30 RS32 5 ___ hyphen 6to7 Number of 10 100 04 __Mbit s ports 08 E 09 16 i 17 24 near 25 B8and9 Number of1000 00 O ports 02 M0 and 11 Uplink port s T1 O port Ident M2 olumn or alternatively M4 ports S2 s ldent 2 column S4 a E2 L2 E a 06 PEA Z6 aa s D D N RS20 22 30 32 40 Release 17 10 10 Ident 2 4 MM NN vv UU EE Os LL GG oo ZZ Property Rail Switch without gigabit ports Rail Switch with gigabit ports al Switch without gigabit ports
91. ant so you can generally set it to U Basic Configuration 136 Release 6 0 07 2010 Network Load Control Terminal Port Port VLAN identifier PVID A 1 2 B 2 3 C 3 3 D 4 2 5 1 Table 12 Ingress table VLANID Port 1 U 2 U U 3 U U Table 13 Egress table Basic Configuration Release 6 0 07 2010 8 6 VLANs 137 Network Load Control 8 6 VLANs Proceed as follows to perform the example configuration O Configure VLAN O Select the Switching VLAN Static dialog wan vane aa 12 sa a8 20 1 VLANI U U EJ u U U VLAN2 E VLAN3 4 Set Reload Create entry Delete entry Help Figure 38 Creating and naming new VLANs Click on Create Entry to open a window for entering the VLAN ID Assign VLAN ID 2 to the VLAN Click on OK You give this VLAN the name VLAN2 by clicking on the name field and entering the name Also change the name for VLAN 1 from Default to VLAN1 Repeat the previous steps and create another VLAN with the VLAN ID 3 and the name VLANS OOOd CI Basic Configuration 138 Release 6 0 07 2010 Network Load Control 8 6 VLANs enable Switch to the Privileged EXEC mode vlan database Switch to the VLAN configuration mode vlan 2 Create a new VLAN with the VLAN ID 2 vlan name 2 VLAN2 Give the VLAN with the VLAN ID 2 the name VLANZ2 vlan 3 Create a new VLAN w
92. ase 17 10 10 A Further Support Technical Questions and Training Courses In the event of technical queries please contact your local Hirschmann distributor or Hirschmann office You can find the addresses of our distributors on the Internet www beldensolutions com Our support line is also at your disposal Tel 49 1805 14 1538 Fax 49 7127 14 1551 Answers to Frequently Asked Questions can be found on the Hirschmann internet site www beldensolutions com at the end of the product sites in the FAQ category The current training courses to technology and products can be found under http www hicomcenter com Hirschmann Competence Center In the long term excellent products alone do not guarantee a successful customer relationship Only comprehensive service makes a difference worldwide In the current global competition scenario the Hirschmann Competence Center is ahead of its competitors on three counts with its complete range of innovative services Consulting incorporates comprehensive technical advice from system evaluation through network planning to project planing Training offers you an introduction to the basics product briefing and user training with certification Support ranges from the first installation through the standby service to maintenance concepts With the Hirschmann Competence Center you have decided against making any compromises Our client customized package leaves you free to choose the service
93. asic Configuration 56 Release 6 0 07 2010 Loading saving settings 3 2 Saving settings 3 2 Saving settings 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 save the current configuration in binary form on the PC 3 2 1 Saving locally and on the ACA The device allows you to save the current configuration data in the local non volatile memory and the ACA LI Select the Basics Load Save dialog In the Save frame click to Device Click on Save The device saves the current configuration data in the local non volatile memory and if an ACA is connected also in the ACA OO enable Switch to the Privileged EXEC mode copy system running config The device saves the current configuration data nvram startup config in the local non volatile memory and if an ACA is connected also on the ACA Basic Configuration Release 6 0 07 2010 57 Loading saving settings 3 2 Saving settings Note After you have successfully saved the configuration on the device the device sends an alarm trap hmConfigurationSavedtTrap together with the information about the AutoConfiguration Adapter ACA if one is connected When you change the configuration for the first time after saving it the device sends a trap hmConfigurationChangedTrap Note The device allows you to trigger the following events when
94. ations contained in the following European directive s 2004 108 EG Directive of the European Parliament and the council for standardizing the regulations of member states with regard to electromagnetic compatibility RPS90 48V HV 2006 95 EG Directive of the European Parliament and the council for standardizing the regulations of member states with regard to electrical equipment to be used within specific voltage ranges RPS90 48V LV 7T2 245 EWG 2004 104 EG 2009 19 EGEG Guideline for standardizing the regulations of member states relating to radio interference from motor vehicles Certified devices are marked with an e1 type approval indicator In accordance with the above named EU directive s the EU conformity declaration will be at the disposal of the relevant authorities at the following address Hirschmann Automation and Control GmbH Stuttgarter Str 45 51 72654 Neckartenzlingen Tel 49 1805 141538 The product can be used in living areas living area place of business small business and in industrial areas Interference immunity EN 61000 6 2 2005 Emitted interference EN 55022 2006 A1 2007 Class A RS20 22 30 32 40 Release 17 10 10 9 10 Warning AN This is a class A device This device can cause interference in living areas and in this case the operator may be required to take appropriate measures The assembly guidelines provided in these instructions must be strictly adhered to in order to ob
95. based router interfaces 8 4 3 IP ToS DiffServ TYPE of Service The Type of Service ToS field in the IP header see table 9 has been part of the IP protocol from the start and it is used to differentiate various services in IP networks Even back then there were ideas about differentiated treatment of IP packets due to the limited bandwidth available and the unreliable connection paths Because of the continuous increase in the available bandwidth there was no need to use the ToS field Only with the real time requirements of today s networks has the TOS field become significant again Selecting the ToS byte of the IP header enables you to differentiate between different services However this field is not widely used in practice Bits 0 1 2 3 4 5 6 7 Precedence MBZ Bits 0 2 IP Precedence Defined Bits 3 6 Type of Service Defined Bit 7 111 Network Control 0000 all normal 0 Must be zero 110 Internetwork Control 1000 minimize delay 101 CRITIC ECP 0100 maximize throughput 100 Flash Override 0010 maximize reliability 011 Flash 0001 minimize monetary cost 010 Immediate 001 Priority 000 Routine Table 9 ToS field in the IP header Basic Configuration 124 Release 6 0 07 2010 Network Load Control 8 4 QoS Priority Differentiated Services The newly defined Differentiated Services field in the IP header see fig 35 often known as the DiffServ code point or DSCP replaces
96. ble click on the row of the port to be protected in the Action cell and select portDisable Configuration MAC Based Port Security IP Based Port Security Port Port Allowed Current Allowed cnn Status MAC Addresses MAC Address IP Addresses 00 None none none none none none none enable enabl enab ed ed cd d d cl 1 1 1 ed Set Reload J Wizard Help Figure 23 Port Security dialog Basic Configuration 86 Release 6 0 07 2010 Protection from Unauthorized Access 6 4 HiDiscovery Access LI Save the settings in the non volatile memory L Select the dialog Basic Settings Load Save O In the Save frame select To Device for the location and click Save to permanently save the configuration in the active configuration Basic Configuration Release 6 0 07 2010 87 Protection from Unauthorized Access 88 6 4 HiDiscovery Access Basic Configuration Release 6 0 07 2010 Synchronizing the System Time in the Network 7 Synchronizing the System Time in the Network The actual meaning of the term real time depends on the time requirements of the application The device provides two options with different levels of accuracy for synchronizing the time in your network If you only require an accuracy in the order of milliseconds the Simple Network Time Protocol SNTP provides a low cost solution The accuracy
97. ble 18 Fiber port 1OOOBASE FX SFP fiber optic Gigabit ETHERNET Transceiver Distances up to 3 km reachable 1000 MHz km 1300 nm With F O adapter compliant with IEEE 802 3 2002 clause 38 single mode fiber offset launch mode conditioning patch cord eS MM Multimode SM Singlemode LH Singlemode Longhaul RS20 22 30 32 40 Release 17 10 10 57 Power consumption power output Device name 2 uplink ports RS20 0400 RS20 0400 RS20 0400 RS20 0800 RS20 0800 RS20 0800 RS20 1600 RS20 1600 RS20 1600 RS20 2400 RS20 2400 RS20 2400 RS30 0802 RS30 0802 RS30 0802 RS30 1602 RS30 1602 RS30 1602 RS30 2402 RS30 2402 RS30 2402 3 uplink ports RS20 0900 RS20 1700 RS20 2500 4 uplink ports RS30 0802 RS30 1602 RS30 2402 RS40 RS22 0800 RS22 0800 RS22 0800 RS22 1600 RS22 1600 RS22 1600 RS22 2400 RS22 2400 RS22 2400 RS32 0802 RS32 0802 RS32 0802 RS32 1602 RS32 1602 RS32 1602 RS32 2402 RS32 2402 RS32 2402 RS22 0900 RS22 1700 RS22 2500 RS32 0802 RS32 1602 RS32 2402 Device model 2xTX port 1xFX port 1xTX port 2xFX port 2xTX port 1xFX port 1xTX port 2xFX port 2xTX port 1xFX port 1xTX port 2xFX port 2xTX port 1xFX port 1xTX port 2xFX port 2xTX port 1xFX port 1xTX port 2xFX port 2xTX port 1xFX port
98. bnet mask is applied Decimal notation 129 218 65 17 128 lt 129 lt 191 Class B binary notation 10000001 11011010 01000001 00010001 Subnetwork 1 Network address Decimal notation 129 218 129 17 128 lt 129 lt 191 Class B binary notation 10000001 11011010 10000001 00010001 Subnetwork 2 Network address Basic Configuration Release 6 0 07 2010 27 Entering the IP Parameters 2 1 IP Parameter Basics Example of how the network mask is used In a large network it is possible that gateways and routers separate the management agent from its management station How does addressing work in such a case Lorenzo Figure 8 Management agent that is separated from its management station by a router The management station Romeo wants to send data to the management agent Juliet Romeo knows Juliet s IP address and also knows that the router Lorenzo knows the way to Juliet Romeo therefore puts his message in an envelope and writes Juliet s IP address as the destination address For the source address he writes his own IP address on the envelope Romeo then places this envelope in a second one with Lorenzo s MAC address as the destination and his own MAC address as the source This process is comparable to going from layer 3 to layer 2 of the ISO OSI base reference model Finally Romeo puts the entire data packet into the mailbox This is c
99. by this Flexibility You have the option of forming user groups flexibly based on the function of the participants and not on their physical location or medium Clarity VLANs give networks a clear structure and make maintenance easier Basic Configuration Release 6 0 07 2010 135 Network Load Control 8 6 VLANs 8 6 2 Examples of VLANs The following practical examples provide a quick introduction to the structure of a VLAN E Example 1 VEAN Figure 37 Example of a simple port based VLAN The example shows a minimal VLAN configuration port based VLAN An administrator has connected multiple terminal devices to a transmission device and assigned them to 2 VLANs This effectively prohibits any data transmission between the VLANs whose members communicate only within their own VLANs When setting up the VLANs you create communication rules for every port which you enter in incoming ingress and outgoing egress tables The ingress table specifies which VLAN ID a port assigns to the incoming data packets Hereby you use the port address of the terminal device to assign it to a VLAN The egress table specifies to which VLAN the frames sent from this port are assigned Your entry also defines whether Ethernet frames sent from this port are to be tagged gt T with TAG field T tagged U without TAG field U untagged For the above example the status of the TAG field of the data packets is not relev
100. ccess via different interfaces System monitor via the V 24 interface out of band Command Line Interface CLI via the V 24 connection out of band and Telnet in band Web based interface via Ethernet in band Basic Configuration Release 6 0 07 2010 13 Access to the user interfaces 1 1 System Monitor 1 1 System Monitor The system monitor enables you to select the software to be loaded perform a software update start the selected software shut down the system monitor delete the configuration saved and display the boot code information Opening the system monitor O Use the terminal cable see accessories to connect the V 24 socket RJ11 to aterminal ora COM port of a PC with terminal emulation based on VT100 for the physical connection see the Installation user manual Speed 9 600 Baud Data 8 bit Parity none Stopbit 1 bit Handshake off Table 1 Data transfer parameters O Start the terminal program on the PC and set up a connection with the device When you boot the device the message Press lt 1 gt to enter System Monitor 1 appears on the terminal Basic Configuration 14 Release 6 0 07 2010 Access to the user interfaces 1 1 System Monitor lt Device Name Boot Release 1 00 Build 2005 09 17 15 36 gt Press lt 1 gt to enter System Monitor 1 1 Figure 1 Screen display during the boot process LI Press the lt 1 gt key within one second to start system monitor
101. ce manual Basic Configuration Release 6 0 07 2010 33 Entering the IP Parameters 2 3 Entering the IP Parameters via Hi Discovery 2 3 Entering the IP Parameters via HiDiscovery The HiDiscovery protocol enables you to assign IP parameters to the device via the Ethernet You can easily configure other parameters via the Web based interface see the Web based Interface reference manual Install the HiDiscovery software on your PC The software is on the CD supplied with the device L To install it you start the installation program on the CD Note The installation of HiDiscovery includes the installation of the software package WinPcap Version 3 1 If an earlier version of WinPcap is on the PC the follow the suggestion in the set up to uninstall it A newer version remains intact during the installationHiDiscovery However this cannot be guaranteed for all future versions of WinPcap In the event that the installation of HiDiscovery has overwritten a newer version of WinPcap you uninstall WinPcap 3 1 and then re install the new version LI Start the HiDiscovery program Basic Configuration 34 Release 6 0 07 2010 Entering the IP Parameters 2 3 Entering the IP Parameters via Hi Discovery LT alnix File Edit 2 Signal Properties WWW Telnet Ping Rescan Preferences 149 218 18 67 Intel R PRO 1000 PL Network Conne No MAC Address Writable IP Address Subne
102. ce on the right Proceed in the same way using the ingress and egress tables created above to adapt the previously configured left device to the new environment Basic Configuration Release 6 0 07 2010 145 Network Load Control 8 6 VLANs Proceed as follows to perform the example configuration O Configure VLAN O Select the Switching VLAN Static dialog wan vane aa 12 sa a8 20 1 VLANI U U EJ u U U VLAN2 E VLAN3 4 Set Reload Create entry Delete entry Help Figure 42 Creating and naming new VLANs L Click on Create Entry to open a window for entering the VLAN ID LI Assign VLAN ID 2 to the VLAN LI You give this VLAN the name VLAN2 by clicking on the name field and entering the name Also change the name for VLAN 1 from Default to VLAN1 L Repeat the previous steps and create another VLAN with the VLAN ID 3 and the name VLAN Basic Configuration 146 Release 6 0 07 2010 Network Load Control 8 6 VLANs enable Switch to the Privileged EXEC mode vlan database Switch to the VLAN configuration mode vlan 2 Create a new VLAN with the VLAN ID 2 vlan name 2 VLAN2 Give the VLAN with the VLAN ID 2 the name VLANZ2 vlan 3 Create a new VLAN with the VLAN ID 3 vlan name 3 VLAN3 Give the VLAN with the VLAN ID 3 the name VLAN3 vlan name 1 VLAN1 Give the VLAN with the VLAN ID 1 the name VL
103. changed On one port a data packet has been received from an unauthorized terminal device see the Port Security dialog Table 19 Trap categories 158 Basic Configuration Release 6 0 07 2010 Operation Diagnosis 9 2 Monitoring the Device Status 9 2 Monitoring the 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 enables you to signal the device status out of band via a signal contact see on page 163 Monitoring the Device Status via the Signal Contact signal the device status by sending a trap when the device status changes detect the device status in the Web based interface on the system side query the device status in the Command Line Interface The device status of the device includes Incorrect supply voltage at least one of the two supply voltages is inoperative the internal supply voltage is inoperative The temperature threshold has been exceeded or has not been reached The removal of a module for modular devices The removal of the ACA The configuration on the ACA does not match that in the device The interruption of the connection at at least one port In the Basic Settings Port Configuration menu you define which ports the device signals if the connection is down see on page 72 Displaying connection error message
104. chmann MIB A complete description of the MIB can be found on the CD ROM included with the device Basic Configuration 208 Release 6 0 07 2010 General Information B 2 Abbreviations used B 2 Abbreviations used ACA AutoConfiguration Adapter ACL Access Control List BOOTP CLI Bootstrap Protocol Command Line Interface DHCP Dynamic Host Configuration Protocol FDB GARP Forwarding Database General Attribute Registration Protocol GMRP GARP Multicast Registration Protocol HTTP ICMP Hypertext Transfer Protocol Internet Control Message Protocol IGMP Internet Group Management Protocol Internet Protocoll Light Emitting Diode LED LLDP Link Layer Discovery Protocol F O MAC Optical Fiber Media Access Control MSTP Multiple Spanning Tree Protocol NTP Network Time Protocol PC PTP Personal Computer Precision Time Protocol Qos RFC Quality of Service Request For Comment RM Redundancy Manager RS RSTP Rail Switch Rapid Spanning Tree Protocol SFP SNMP Small Form factor Pluggable Simple Network Management Protocol SNTP Simple Network Time Protocol TCP TFTP Transmission Control Protocol Trivial File Transfer Protocol TP UDP Twisted Pair User Datagramm Protocol URL UTC Uniform Resource Locator Coordinated Universal Time VLAN Virtual Local Area Network Basic Configuration Release 6 0 07 2010 209 G
105. components you want to use Internet http www hicomcenter com RS20 22 30 32 40 Release 17 10 10 63 h HIRSCHMANN A BELDEN BRAND
106. correct configuration of the HIPER Ring or ring coupling The following condition is also reported in RM mode Ring redundancy reserve is available On delivery there is no ring redundancy monitoring LI Pull the terminal block off the device and connect the power supply and signal lines RS20 22 30 32 40 34 Release 17 10 10 2 1 6 RS22 RS32 supply voltage and signal contact For the RS22 RS32 the PoE supply voltage and the signal contact are connected via the 6 pin terminal block with a snap lock The RS22 RS32 devices are supplied with PoE voltage 48 V DC safety low voltage via an external power supply unit O Make sure that the external power supply unit you use to provide the PoE voltage fulfills the following basic prerequisites Insulation requirements according to IEEE 802 3af insulation resistance 48 V output to rest of the world 2 250 V DC for 1 min Output power lt 100 W Current limitation lt 5A The power supply unit and the devices with PoE ports form a limited power source according to IEC 60950 1 The external PoE power supply unit must be able to provide the power for the connected PDs Power Devices and for the Switch Note The RS22 RS32 devices fulfill the technical data and the certifications when using the RPS90 48V LV and RPS90 48V HV power units from Hirschmann Only use these power units to ensure that the specifications are fulfilled RPS90 48V LV connecting the input voltage With
107. ct the AC voltage see fig 16 RS20 22 30 32 40 Release 17 10 10 33 FAULT 4 avipa _oV_oV_1 24V P2 FAULT A r adle Figure 16 Connecting the supply voltage at the 6 pin terminal block 1 DC voltage voltage range 9 6 V DC to 60 V DC 2 AC voltage voltage range 18 V AC to 30 VAC Note With non redundant supply of the main voltage the device reports a loss of power You can avert this message by applying the supply voltage via both inputs or by changing the configuration in the Management Signal contact for RS20 RS30 RS40 The signal contact FAULT for pin assignment of terminal block see fig 16 monitors the functioning of the device thus enabling remote diagnostics You can specify the type of function monitoring in the Management You can also use the switch Web page to switch the signal contact manually and thus control external devices A break in contact is used to report the following conditions via the potential free signal contact relay contact closed circuit The detected inoperability of at least one of the two voltage supplies voltage supply 1 or 2 is below the threshold value A continuous malfunction in the device The loss of connection at at least one port The report of the link status can be masked by the Management for each port In the delivery state link status monitoring is deactivated The loss of ring redundancy reserve A detected error during the self test In
108. ctive if the program itself has not been started When started the service responds to DHCP queries Basic Configuration 196 Release 6 0 07 2010 Setting up the Configuration A 2 Setting up a DHCP Server with Environment Option 82 Preferences 21x General Language DHCP Interfaces TFTP TFTP Options ause as long as another Server is detected I Send DHCP BOOTP replies as unicast messages F Disable Client Auto Configuration Option 116 I Respond to DHCP requests only I Vary dynamic IP address of clients I Check that a selected dynamic IP address is not in use Abbrechen Ubemetmen Figure 66 DHCP setting L To enter the static addresses click New haneWIN DHCP Server 2 1 2 File Options Window Help Observed MAC addresses Id 2 4 J static dynamic ignored Listening on Port 6 Figure 67 Adding static addresses O Select Circuit Identifier and Remote Identifier Basic Configuration Release 6 0 07 2010 197 Setting up the Configuration A 2 Setting up a DHCP Server with Environment Option 82 Add static entries With static entries you can assign clients with known hardware address or identifier a fixed IP address and configuration profile The assigned IP addresses must not overlap with the dynamic address ranges Identifiers or hardware addresses must be specified byte by byte in hexadecimal notation For MAC hardware addresses the bytes mus
109. d personnel should work on this device or in its vicinity These personnel must be thoroughly familiar with all the warnings and maintenance procedures in accordance with this operating manual L The proper and safe operation of this device depends on proper handling during transport proper storage and assembly and conscientious operation and maintenance procedures Never start operation with damaged components Only use the devices in accordance with this manual In particular observe all warnings and safety related information L Any work that may be required on the electrical installation may only be carried out by personnel trained for this purpose OO Note LED or LASER components in compliance with IEC 60825 1 2001 CLASS 1 LASER PRODUCT CLASS 1 LED PRODUCT Warning Laser light Do not look into the beam or view it directly with optical instruments e g magnifying glasses microscopes Failure to observe this warning within a distance of 100 mm RS20 22 30 32 40 Release 17 10 10 can endanger your sight Light is emitted from the optical connections or from the ends of the optical fibers that are connected to them Light Emitting Diode CLASS 2M wave length 650 nm power lt 2 mW according to DIN EN 60825 1 2003 10 National and international safety regulations L Make sure that the electrical installation meets local or nationally applicable safety regulations CE marking The devices comply with the regul
110. dresses consist of 4 bytes These 4 bytes are written in decimal notation separated by a decimal point Since 1992 five classes of IP address have been defined in the RFC 1340 Class Network Host address Address range address A 1 byte 3 bytes 1 0 0 0 to 126 255 255 255 B 2 bytes 2 bytes 128 0 0 0 to 191 255 255 255 C 3 bytes 1 byte 192 0 0 0 to 223 255 255 255 D 224 0 0 0 to 239 255 255 255 E 240 0 0 0 to 255 255 255 255 Table 2 IP address classes The network address is the fixed part of the IP address The worldwide leading regulatory board for assigning network addresses is the IANA Internet Assigned Numbers Authority If you require an IP address block contact your Internet service provider Internet service providers should contact their local higher level organization APNIC Asia Pacific Network Information Center Asia Pacific Region ARIN American Registry for Internet Numbers Americas and Sub Sahara Africa LACNIC Regional Latin American and Caribbean IP Address Registry Latin America and some Caribbean Islands RIPE NCC R seaux IP Europ ens Europe and Surrounding Regions Basic Configuration Release 6 0 07 2010 25 Entering the IP Parameters 2 1 IP Parameter Basics Net ID 7 bits Host ID 24 bits Class A Net ID 14 bits Host ID 16 bits Class B Net ID 21 bits Host ID 8 bits Class C Multicast Group ID 28 bits Class D reserved for future use 2
111. dual VLANs A to H are spread over two transmission devices Switches Such VLANs are therefore known as distributed VLANs An optional Management Station is also shown which enables access to all network components if it is configured correctly Note In this case VLAN 1 has no significance for the terminal device communication but it is required to maintain the administration of the transmission devices via what is known as the Management VLAN As in the previous example uniquely assign the ports with their connected terminal devices to a VLAN With the direct connection between the two transmission devices uplink the ports transport packets for both VLANs To differentiate these VLAN tagging is used which prepares the packets accordingly See on page 122 VLAN tagging This maintains the respective VLAN assignments Proceed as follows to perform the example configuration Add Uplink Port 5 to the ingress and egress tables from example 1 Create new ingress and egress tables for the right switch as described in the first example The egress table specifies to which VLAN the frames sent from this port are assigned Your entry also defines whether Ethernet frames sent from this port are to be tagged Basic Configuration Release 6 0 07 2010 143 Network Load Control 8 6 VLANs T with TAG field T tagged U without TAG field U untagged In this example tagged frames are used in the communication between the
112. e Switch to the Configuration mode Switch to the Interface Configuration mode of interface 1 1 Port 1 1 becomes member untagged in VLAN 2 Port 1 1 is assigned the port VLAN ID 2 Switch to the Configuration mode Switch to the interface configuration mode for interface 1 2 Port 1 2 becomes member untagged in VLAN 3 Port 1 2 is assigned the port VLAN ID 3 Switch to the Configuration mode Switch to the Interface Configuration mode of Interface 1 3 Port 1 3 becomes member untagged in VLAN 3 Port 1 3 is assigned the port VLAN ID 3 Switch to the Configuration mode Switch to the interface configuration mode of interface 1 4 Port 1 4 becomes member untagged in VLAN 2 Port 1 4 is assigned the port VLAN ID 2 Switch to the Configuration mode Switch to the privileged EXEC mode Show details for VLAN 3 2 3 VLAN3 Static 0 days 02 52 26 System Uptime Configured Tagging Autodetect Tagged Include Untagged Include Untagged Autodetect Tagged Autodetect Tagged Basic Configuration Release 6 0 07 2010 Network Load Control 8 6 VLANs E Example 2 l Management Station optional Figure 41 Example of a more complex VLAN constellation The second example shows a more complex constellation with 3 VLANs 1 to 3 Along with the Switch from example 1 a second Switch on the right in the example is now used The terminal devices of the indivi
113. e 12 Pin assignment of a TP TX interface for PoE for the voltage supply to the Figure 8 6 SaNWoORO wire pairs transmitting the signal RJ45 socket MDI X mode 10 100 1000 Mbit s twisted pair connection These connections are RJ45 sockets 10 100 1000 Mbit s TP ports enable the connection of terminal devices or independent network segments according to the IEEE 802 3 10BASE T 100BASE TX 1000BASE T standard These ports support Autonegotiation Autopolarity Autocrossing if autonegotiation is activated 1000 Mbit s full duplex 100 Mbit s half duplex mode 100 Mbit s full duplex mode 10 Mbit s half duplex mode 10 Mbit s full duplex mode State on delivery autonegotiation activated The socket housing is electrically connected to the front panel The pin assignment corresponds to MDI X Function BI_DB BI_DB BI_DA BI_DD BI DD BI_DA BI_DC BI_DC 5 COIN OD a R ol hmM U r Table 13 Pin assignment of a 1000 MBit s TP interface in MDI X mode RJ45 socket RS20 22 30 32 40 46 Release 17 10 10 100 Mbit s F O connection In device variants RS20 and RS22 these ports are DSC connectors or ST connectors In device variants RS30 RS32 and RS40 these ports are SFP slots 100 MBit s F O ports enable the connection of terminal devices or independent network segments in compliance with the IEEE 802 3 100BASE FX standard These ports support Full or half duplex mode Stat
114. e 6 0 07 2010 45 Entering the IP Parameters Example of a DHCP configuration file etc dhcpd conf for DHCP Daemon bnet 10 1 112 0 netmask 255 255 240 0 Fa 255 5240 3 07 12 96 su option subnet mask 25 option routers 10 1 1 Host berta requests IP configuration with her MAC address host berta hardware ethernet 00 80 63 08 65 42 fixed address 10 1 112 82 Host hugo requests OP OP Lines that start with a character are comment lines IP configuration with his client identifier fixed address 10 1 1 host hugo tion dhcp client identifier hugo tion dhcp client identifier 00 68 75 67 6f 12 83 server name filename agent cont 10 1 112 Ls ig dat 2 6 System Configuration via DHCP The lines preceding the individually listed devices refer to settings that apply to all the following devices The fixed address line assigns a permanent IP address to the device For further information please refer to the DHCP server manual 46 Basic Configuration Release 6 0 07 2010 Entering the IP Parameters 2 7 System Configuration via DHCP Option 82 2 7 System Configuration via DHCP Option 82 As with the classic DHCP on startup an agent receives its configuration data according to the BOOTP DHCP process
115. e DSCP priority to received IP data packets globally L Select the QoS Priority Global dialog L Select trust IPDSCP in the Trust Mode line enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode classofservice trust ip Assign the trust ip dscp mode globally dscp exit Switch to the Configuration mode exit Switch to the privileged EXEC mode show classofservice trust Display the trust mode Class of Service Trust Mode IP DSCP Configuring Layer 2 management priority LI Configure the VLAN ports to which the device sends management packets as a member of the VLAN that sends data packets with a tag see on page 136 Examples of VLANs LI Select the Q0S Priority Global dialog O Intheline VLAN priority for management packets you enter the value of the VLAN priority enable Switch to the Privileged EXEC mode network priority dotlp vlan Assign the value 7 to the management priority so 7 that management packets with the highest priority are sent Basic Configuration 130 Release 6 0 07 2010 Network Load Control exit show network 8 4 QoS Priority Switch to the privileged EXEC mode Displays the management VLAN priority System IP AGGVESS es cea sce ce ee ek ee Se ee a eS TOOLE Supne MaS kroa ene r ean r T tan TE Ten ET 2552595 29540 Default Gateway sic dedddeacdaccdsasdvacdeaedaas 100
116. e LEDs for the selected device flashing To switch off the flashing click on the symbol again LI By double clicking a line you open a window in which you can enter the device name and the IP parameters Basic Configuration Release 6 0 07 2010 35 Entering the IP Parameters 2 3 Entering the IP Parameters via Hi Discovery Properties for MAC Address 00 80 63 51 62 60 Name PowerMICE 518280 IP Configuration IP Address 10 o im i i 112 Use Default 255 255 E 255 0 Use Default Default Gateway a o im 1 200 Use Default Subnet Mask Set As Default OK Cancel Figure 11 HiDiscovery assigning IP parameters Note When the IP address is entered the device copies the local configuration settings see on page 51 Loading saving settings Note For security reasons switch off the HiDiscovery function for the device in the Web based interface after you have assigned the IP parameters to the device see on page 48 Web based IP Configuration Note Save the settings so that you will still have the entries after a restart see on page 51 Loading saving settings 36 Basic Configuration Release 6 0 07 2010 Entering the IP Parameters 2 4 Loading the system configuration from the ACA 2 4 Loading the system configuration from the ACA The AutoConfiguration Adapter ACA is a device for storing the configuration data of a device and storing the device soft
117. e following is Known Basic Configuration 84 Release 6 0 07 2010 Protection from Unauthorized Access 6 4 HiDiscovery Access Parameter Value Explanation Allowed IP Addresses 10 0 1 228 The defined users are the device with the 10 0 1 229 IP address 10 0 1 228 and the device with the IP address 10 0 1 229 Action portDisable Disable the port with the corresponding entry in the port configuration table see on page 71 Configuring the Ports and send an alarm Prerequisities for further configuration The port for the LAN connection is enabled and configured correctly see on page 71 Configuring the Ports Prerequisites for the device to be able to send an alarm trap See on page 157 Configuring Traps You have entered at least one recipient You have set the flag in the Active column for at least one recipient Inthe Selection frame you have selected Port Security Basic Configuration Release 6 0 07 2010 85 Protection from Unauthorized Access 6 4 HiDiscovery Access LI Configure the port security C Select the Security Port Security dialog LI In the Configuration frame select IP Based Port Security CI In the table click on the row of the port to be protected in the Allowed IP addresses cell O Enter in sequence the IP subnetwork group 10 0 1 228 aspace character as a separator the IP address 10 0 1 229 Entry 10 0 1 228 10 0 1 229 L In the ta
118. e is the http update The http update saves you having to configure the tftp server The device requires the following information to be able to perform a software update from the tftp server its own IP address entered permanently the IP address of the tftp server or of the gateway to the tftp server the path in which the operating system of the tftp server is kept The file transfer between the device and the tftp server is performed via the Trivial File Transfer Protocol tftp The management station and the tftp server may be made up of one or more computers The preparation of the tftp server for the device software involves the following steps Setting up the device directory and copying the device software Setting up the tftp process Basic Configuration 200 Release 6 0 07 2010 Setting up the Configuration A 3 TFTP Server for Software Up Environment dates A 3 1 Setting up the tftp Process General prerequisites The local IP address of the device and the IP address of the tftp server or the gateway are known to the device The TCP IP stack with tftp is installed on tftp server The following sections contain information on setting up the tftp process arranged according to operating system and application SunOS and HP LI First check whether the tftp daemon background process is running i e whether the file etc inetd conf contains the following line see fig 71 and whether the status of this process is IW
119. e on delivery full duplex FDX Note Make sure that the LH ports are only connected with LH ports SM ports are only connected with SM ports and MM ports only with MM ports 1 Gbit s F O connection These ports are SFP slots 1 Gbit s F O ports enable the connection of terminal devices or independent network segments according to the IEEE 802 3 1000BASE SX 1000BASE LX standard These ports support Autonegotiation Note Make sure that the LH ports are only connected with LH ports SX ports are only connected with SX ports and LX ports only with LX ports Note In device variants RS30 0200ZZ and RS32 02002ZZ four uplink ports with SFP slot Gigabit ETHERNET SFP transceivers or Fast ETHERNET SFP transceivers can be mounted at the two top ports and Fast ETHERNET SFP transceivers can be mounted at the two bottom ports see page 60 Accessories In device variants RS40 Gigabit ETHERNET SFP transceiver or Fast ETHERNET SFP transceiver can be mounted at the combo ports see page 60 Accessories RS20 22 30 32 40 Release 17 10 10 47 2 2 Display elements After the operating voltage is set up the software starts and initializes itself Afterwards the device performs a self test During this process various LEDs light up The process takes around 60 seconds Device state These LEDs provide information about conditions which affect the operation of the whole device P O ravur Stand by RM
120. e specified surrounding air temperature temperature of the surrounding air at a distance of up to 5 cm 1 97 in from the device and relative air humidity specified in the technical data L Install the device in a location where the climatic threshold values specified in the technical data will be observed O Use the device only in an environment within the contamination level specified in the technical data RS20 22 30 32 40 Release 17 10 10 7 Qualification requirements for personnel Qualified personnel as understood in this manual and the warning signs are persons who are familiar with the setup assembly startup and operation of this product and are appropriately qualified for their job This includes for example those persons who have been trained or directed or authorized to switch on and off to ground and to label power circuits and devices or systems in accordance with current safety engineering standards trained or directed in the care and use of appropriate safety equipment in accordance with the current standards of safety engineering trained in providing first aid General safety instructions Electricity is used to operate this equipment Comply with every detail of the safety requirements specified in the operating instructions regarding the voltages to apply see page 4 Non observance of these safety instructions can therefore cause material damage and or serious injuries L Only appropriately qualifie
121. e table click Create entry O To delete an entry select the line in the table and click Delete Basic Configuration 80 Release 6 0 07 2010 Protection from Unauthorized Access 6 3 Telnet Web Access 6 3 Telnet Web Access 6 3 1 Description of Telnet Access The Telnet server of the device allows you to configure the device by using the Command Line Interface in band You can deactivate the Telnet server if you do not want Telnet access to the device On delivery the server is activated After the Telnet server has been deactivated you will no longer be able to access the device via anew Telnet connection If a Telnet connection already exists it is kept Note The Command Line Interface out of band and the Security Telnet Web access dialog in the Web based interface allow you to reactivate the Telnet server 6 3 2 Description of Web Access The Web server of the device allows you to configure the device by using the Web based interface Deactivate the Web server if you do not want the device to be accessed from the Web On delivery the server is activated Basic Configuration Release 6 0 07 2010 81 Protection from Unauthorized Access 6 3 Telnet Web Access After the Web server has been switched off it is no longer possible to log in via a Web browser The login in the open browser window remains active 6 3 3 Enabling disabling Telnet Web Access O Select the Security Telnet Web access dialog O Disable the se
122. e terminal block start up procedure 2 1 11 Connecting the data lines S 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 2 1 Display elements Basic set up Disassembly Technical data Further Support RS20 22 30 32 40 Release 17 10 10 Safety instructions Notes on safety This manual contains instructions to be observed for ensuring your personal safety and for preventing damage The warnings appear next to a warning triangle with a different heading depending on the degree of danger posed Danger AN Means that death serious physical injury or significant damage to property will occur if the corresponding safety measures are not carried out Warning AN Means that death serious physical injury or significant damage to property could occur if the corresponding safety measures are not carried out Caution AN Means that minor physical injury or damage to property can occur if the required safety measures are not carried out Note Contains important information on the product on how to manage the product or on the respective section of the documentation to which your special attention is being drawn Certified usage Please observe the following The device may only be employed for the purposes described in the catalog and technical description and only in conjunction with external devices and components recommended or approved by the manufacturer The product can only be operated correctly and safely if it is transpor
123. ecause the PoE media module gets its PoE voltage externally the device does not know the possible nominal power The device therefore assumes a nominal power of 60 Watt per PoE media module for now Nominal power for HS600x The device provides the nominal power for the sum of all PoE ports plus a surplus Because the PoE media module gets its PoE voltage externally the device does not know the possible nominal power The device therefore assumes a nominal power of 60 Watts per PoE media module for now Nominal power for OCTOPUS 8M PoE The device provides the nominal power for the sum of all PoE ports plus a surplus Because the device gets its PoE voltage externally the device does not know the possible nominal power The device therefore assumes a nominal power of 15 Watt per PoE port for now Basic Configuration 72 Release 6 0 07 2010 Configuring the Ports O Select the Basics Power over Ethernet dialog With Function on off you turn the PoE on or off With Send Trap you can get the device to send a trap in the following cases Ifa value exceeds falls below the performance threshold If the PoE supply voltage is switched on off at at least one port Enter the power threshold in Threshold When this value is exceeded not achieved the device will send a trap provided that Send trap is enabled For the power threshold you enter the power yielded as a percentage of the no
124. ed permanently in the device or on the URL see on page 57 Saving settings igmp The filter was created by IGMP Snooping To delete entries with the learned status from the filter table select the Basics Restart dialog and click Reset MAC address table 8 1 5 Disabling the Direct Packet Distribution To enable you to observe the data at all the ports the device allows you to disable the learning of addresses When the learning of addresses is disabled the device transfers all the data from all ports to all ports LC Select the Switching Global dialog UnCheck Address Learning to observe the data at all ports Basic Configuration Release 6 0 07 2010 107 Network Load Control 8 2 Multicast Application 8 2 Multicast Application 8 2 1 Description of the Multicast Application The data distribution in the LAN differentiates between 3 distribution classes on the basis of the addressed recipients Unicast one recipient Multicast a group of recipients Broadcast every recipient that can be reached In the case of a Multicast address the device forwards all data packets with a Multicast address to all ports This leads to an increased bandwidth requirement Protocols such as GMRP and procedures such as IGMP Snooping enable the device to exchange information via the direct transmission of Multicast data packets The bandwidth requirement can be reduced by distributing the Multicast data packets only to those ports
125. edure ee Ls DA ne 1 1 45 is pa ae I oa c 1 1 2 3 Figure 29 Port status LEDs 1 Port status LEDs for isolated or single row RJ45 sockets one green and one yellow LED per port 2 Port status LEDs for double row RJ45 sockets one LED per port glowing flashing either green or yellow 3 Port status LEDs for DSC ST SFP LS link status green LED Not glowing No valid connection Glowing green Valid connection Flashing green 1 time a period Port is switched to stand by Flashing green 3 times a Port is switched off period DA data yellow LED Not glowing No data reception at corresponding port Flashing yellow Data reception at corresponding port RS20 22 30 32 40 Release 17 10 10 49 2 3 Basic set up The IP parameters must be entered when the device is installed for the first time The device provides the following options for configuring IP addresses Configuration via V 24 connection Configuration using the HiDiscovery protocol Configuration via BOOTP Configuration via DHCP Configuration via DHCP Option 82 Configuration using AutoConfiguration Adapter Further information on the basic settings of the device can be found in the Basic Configuration user manual on the CD ROM Default settings IP address The device looks for the IP address using DHCP Password for management Login user password public read only Login admin password private read and write V 24 data rate 9 600 Ba
126. een the parameters Max Response Time Send Interval and Group Membership Interval see on page 113 Parameter Values Basic Configuration 112 Release 6 0 07 2010 Network Load Control 8 2 Multicast Application Parameter Values The parameters Max Response Time Send Interval and Group Membership Interval have a relationship to each other Max Response Time lt Send Interval lt Group Membership Interval If you enter values that contradict this relationship the device then replaces these values with a default value or with the last valid values Parameter Protocol Value range Default setting Version Max Response Time 1 2 1 25 seconds 10 seconds 3 1 3 598 seconds Send Interval 1 2 3 2 3 599 seconds 125 seconds Group Membership Interval 1 2 3 3 3 600 seconds 260 seconds Table 7 Value range for Max Response Time Send Interval Group Membership Interval Multicasts With these frames you can enter global settings for the Multicast functions Prerequisite The IGMP Snooping function is activated globally Basic Configuration Release 6 0 07 2010 113 Network Load Control 8 2 Multicast Application 114 Unknown Multicasts In this frame you can determine how the device in IGMP mode sends packets with known and unknown MAC IP Multicast addresses that were not learned through IGMP Snooping Unknown Muilticasts allows you to specify how the device transmits unknown Multicast packets
127. eload Help Figure 52 IP Address Conflict Detection dialog Basic Configuration 180 Release 6 0 07 2010 Operation Diagnosis 9 9 Detecting Loops 9 9 Detecting Loops Loops in the network even temporary loops can cause connection interruptions or data losses The automatic detection and reporting of this situation allows you to detect it faster and diagnose it more easily An incorrect configuration can cause a loop for example if you deactivate Spanning Tree The device allows you to detect the effects typically caused by loops and report this situation automatically to the network management station You have the option here to specify the magnitude of the loop effects that triggers the device to send a report A typical effect of a loop is that frames from multiple different MAC source addresses can be received at different ports of the device within a short time The device evaluates how many of the same MAC source addresses it has learned at different ports within a time period Note This procedure detects loops when the same MAC address is received at different ports However loops can also have other effects And it is also the case that the same MAC address being received at different ports can have other causes O Select the Switching Global dialog O Select Enable address relearn detection Enter the desired threshold value in the Address relearn threshold field If the address relearn detection is
128. en reached The removal of a module for modular devices The removal of the ACA The configuration on the ACA does not match that in the device The interruption of the connection at at least one port In the Basic Settings Port Configuration menu you define which ports the device signals if the connection is down see on page 72 Displaying connection error messages On delivery there is no link monitoring Event in the ring redundancy Loss of the redundancy in ring manager mode On delivery there is no ring redundancy monitoring Event in the ring network coupling Loss of the redundancy On delivery there is no ring redundancy monitoring The following conditions are also reported by the device in standby mode Defective link status of the control line Partner device is in standby mode Select the corresponding entries to decide which events the device status includes 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 163 Monitoring the Device Status via the Signal Contact Basic Configuration 162 Release 6 0 07 2010 Operation Diagnosis 9 3 Out of band Signaling 9 3 1 Controlling the Signal Contact With this mode you can remotely control every signal contact individually Application options Simulation of an error as an input
129. eneral Information B 3 Technical Data B 3 Technical Data You will find the technical data in the document Reference Manual Web based Interface Basic Configuration 210 Release 6 0 07 2010 General Information B 4 Readers Comments B 4 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 Your assessment of this manual Very good Good Satisfactory Mediocr Poor e Precise description O O O O O Readability O O O O O Understandability O O O O O Examples O O O O O Structure O O O O O Completeness O O O O O Graphics O O O O O Drawings O O O O O Tables O O O O O Did you discover any errors in this manual If so on what page Basic Configuration Release 6 0 07 2010 211 General Information B 4 Readers Comments Suggestions for improvement and additional information General comments Sender Company Department o Name Telephone number esses Street Zip code City Emaii Date Signature Dear User Please fill out and return this page as a fax to the number 49 0 7127 14 1600 or by mail to Hirschmann Automation and Control GmbH Department AED Stuttgarter Str 45 51 72654 Neckartenzlingen Basic Configuration 212 Release 6 0
130. ent Basic Configuration 132 Release 6 0 07 2010 Network Load Control 8 5 Flow Control Workstation 1 Workstation 2 Workstation 3 Workstation 4 Figure 36 Example of flow control E Flow Control with a full duplex link In the example see fig 36 there is a full duplex link between Workstation 2 and the device Before the send queue of port 2 overflows the device sends a request to Workstation 2 to include a small break in the sending transmission Note The devices RS20 30 40 MS20 30 Octopus MACH 100 RSR and MACH 1000 support flow control in full duplex mode only E Flow Control with a half duplex link In the example see fig 36 there is a half duplex link between Workstation 2 and the device Before the send queue of port 2 overflows the device sends data back so that Workstation 2 detects a collision and interrupts the sending process Basic Configuration Release 6 0 07 2010 133 Network Load Control 8 5 Flow Control Note The devices RS20 30 40 MS20 30 Octopus MACH 100 RSR and MACH 1000 do not support flow control in half duplex mode 8 5 2 Setting the Flow Control LI Select the Basics Port Configuration dialog In the Flow Control on column you checkmark this port to specify that flow control is active here You also activate the global Flow Control switch in the Switching Global dialog O Select the Switching Globa
131. ent if the device status changes Note The above CLI commands activate the monitoring and the trapping respectively for all the supported components If you want to activate or deactivate monitoring only for individual components you will find the corresponding syntax in the CLI manual or in the help Input of the CLI console Basic Configuration 160 Release 6 0 07 2010 Operation Diagnosis 9 2 Monitoring the Device Status 9 2 2 Displaying the Device Status L Select the Basics System dialog Devicestatus gene M Alarmreason 1 2 3 Figure 46 Device status and alarm display 1 The symbol displays the device status 2 Cause of the oldest existing alarm 3 Start of the oldest existing alarm exit Switch to the privileged EXEC mode show device status Display the device status and the setting for the device status determination Basic Configuration Release 6 0 07 2010 161 Operation Diagnosis 9 3 Out of band Signaling 9 3 Out of band Signaling The signal contact is used to control external devices and monitor the operation of the device Function monitoring enables you to perform remote diagnostics The device reports the operating status via a break in the potential free signal contact relay contact closed circuit Incorrect supply voltage at least one of the two supply voltages is inoperative the internal supply voltage is inoperative The temperature threshold has been exceeded or has not be
132. ets to these classes is performed by the priority of the data packet contained in the VLAN tag when the receiving port was configured to trust dot1 p the QoS information ToS DiffServ contained in the IP header when the receiving port was configured to trust ip dscp the port priority when the port was configured to no trust the port priority when receiving non IP packets when the port was configured to trust ip dscp the port priority when receiving data packets without a VLAN tag see on page 71 Configuring the Ports and when the port was configured to trust dot1p Default setting trust dot1p The device considers the classification mechanisms in the sequence shown above Data packets can contain prioritizing QoS information VLAN priority based on IEEE 802 1Q 802 1D Layer 2 Basic Configuration Release 6 0 07 2010 121 Network Load Control 8 4 QoS Priority 8 4 2 VLAN tagging The VLAN tag is integrated into the MAC data frame for the VLAN and Prioritization functions in accordance with the IEEE 802 1Q standard The VLAN tag consists of 4 bytes It is inserted between the source address field and the type field For data packets with a VLAN tag the device evaluates the priority information and the VLAN information if VLANs have been set up Data packets with VLAN tags containing priority information but no VLAN information VLAN ID 0 are known as Priority Tagged Fr
133. ference clock and set its system time as accurately as possible Note For the most accurate system time distribution possible only use network components routers switches hubs which support SNTP in the signal path between the SNTP server and the SNTP client Basic Configuration Release 6 0 07 2010 93 Synchronizing the System Time in the 7 2 SNTP Network 7 2 3 Configuring SNTP 94 LI Select the Time SNTP dialog Operation L In this frame you switch the SNTP function on off globally SNTP Status L The Status message displays statuses of the SNTP client as one or more test messages Possible messages Local system clock is synchronized An SNTP loop has occurred General error Synchronized one time Client deactivated Server 1 is not synchronized Server 1 has incorrect protocol version Server 1 not responding Server 2 is not synchronized Server 2 has incorrect protocol version Server 2 not responding Basic Configuration Release 6 0 07 2010 Synchronizing the System Time in the 7 2 SNTP Network Configuration SNTP Client O In Client status you switch the SNTP client of the device on off L In External server address you enter the IP address of the SNTP server from which the device periodically requests the system time L In Redundant server address you enter the IP address of the SNTP server from which the device periodically requests the system time if it does not receive a respo
134. g the IP Parameters 2 9 Faulty Device Replacement 2 9 Faulty Device Replacement The device provides 2 plug and play solutions for replacing a faulty device with a device of the same type faulty device replacement Configuring the new device using an AutoConfiguration Adapter see on page 37 Loading the system configuration from the ACA or configuration via DHCP Option 82 see on page 196 Setting up a DHCP Server with Option 82 In both cases when the new device is started it is given the same configuration data that the replaced device had Note If you replace a device with DIP switches please ensure that the DIP switch settings are identical Basic Configuration 50 Release 6 0 07 2010 Loading saving settings 3 Loading saving settings The device saves settings such as the IP parameters and the port configuration in the temporary memory These settings are lost when you switch off orreboot the device The device enables you to load settings from a non volatile memory into the temporary memory save settings from the temporary memory in a non volatile memory If you change the current configuration for example by switching a port off the Web based interface changes the load save symbol in the navigation tree from a disk symbol to a yellow triangle After saving the configuration the Web based interface displays the load save symbol as a disk again Basic Configuration Release 6 0 07 2010 5
135. g the signal the individual ports are not electrically insulated from each other The following conditions are met in accordance with IEEE 802 3af Endpoint PSE Alternative A RS20 22 30 32 40 Release 17 10 10 29 1 2 2 PoE power units The following PoE power units are available for supplying the devices with PoE voltage gt RPS90 48V LV Low voltage PoE power unit Input voltage range 24 V DC to 48 V DC gt Power output at up to 60 C 90 W Power output at 60 C to 70 C 60 W gt RPS90 48V HV High voltage PoE power unit gt Input voltage range 60 V DC to 250 V DC or 110 V AC to 230 V AC You can choose between a DC or AC voltage connection Power output at up to 60 C 90 W Power output at 60 C to 70 C 60 W The output voltage can be set in the range from 48 V DC to 54 V DC The default setting for the output voltage is 48 V DC RPS90 48V HV RPS90 48V LV RS20 22 30 32 40 30 Release 17 10 10 2 Assembly and start up The devices have been developed for practical application in a harsh industrial environment The installation process is correspondingly simple On delivery the device is ready for operation The following steps should be performed to install and configure a switch Unpacking and checking Installing the SFP modules optional Insert data in label area Adjust DIP switch settings Connect PoE power unit optional Connect the terminal block for voltage supply and signal
136. ge is not grounded If you are using a DC voltage greater than 125 V DC for the supply voltage install a suitable input fuse For RPS90 48V LV power supply units use a slow blow fuse with a nominal rating of 10 A for the voltage supply input For RPS90 48V HV power supply units use a slow blow fuse with a nominal rating of 6 3 A With AC power supply use a cable cross section of at least 0 75 mm for North America AWG 18 for the current conductor at the voltage input With DC power supply use a cable cross section of at least 1 0 mm for North America AWG 16 for the current conductor at the voltage input Warning A N Only connect a supply voltage that corresponds to the type plate of your device PoE power supply unit RPS90 48V LV 18 V DC to 60 V DC PoE power supply unit RPS90 48V HV 48 V DC to 320 V DC or 90 V AC to 265 V AC Shielding ground Note The shielding ground of the connectable twisted pair lines is connected to the front panel as a conductor L Beware of possible short circuits when connecting a cable section with conductive shielding braiding ATEX Directive 94 9 EC Relevant for RS40 devices devices used in explosive gas atmospheres according to ATEX Directive 94 9 EC LI Make sure that the device has the following label Il 3G followed by other specifications L 1he modules shall be installed in an enclosure in accordance with EN 60079 15 providing a degree of protection of at least IP54 according to E
137. gistered Multicast addresses transmit them to all ports or only to those ports at which the device received query packets You also have the option of additionally sending known Multicast packets to query ports Default setting Off Basic Configuration 110 Release 6 0 07 2010 Network Load Control 8 2 Multicast Application 8 2 4 Setting IGMP Snooping MO Select the switching Multicast IGMP dialog Operation The Operation frame allows you to enable disable IGMP Snooping globally for the entire device If IGMP Snooping is disabled then the device does not evaluate Query and Report packets received and it sends floods received data packets with a Multicast address as the destination address to all ports Settings for IGMP Querier and IGMP With these frames you can enter global settings for the IGMP settings and the IGMP Querier function Prerequisite The IGMP Snooping function is activated globally Basic Configuration Release 6 0 07 2010 111 Network Load Control 8 2 Multicast Application IGMP Querier IGMP Querier active allows you to enable disable the Query function Protocol version allow you to select IGMP version 1 2 or 3 In Send interval s you specify the interval at which the device sends query packets valid entries 2 3 599 s default setting 125 s Note the connection between the parameters Max Response Time Send Interval and Group Membership Interval see on page
138. guration 204 Release 6 0 07 2010 General Information B General Information Basic Configuration Release 6 0 07 2010 205 General Information B 1 Management Information Base MIB B 1 Management Information Base MIB The Management Information Base MIB is designed in the form of an abstract tree structure The branching points are the object classes The leaves of the MIB are called generic object classes If this is required for unique identification the generic object classes are instantiated i e the abstract structure is mapped onto reality by specifying the port or the source address Values integers time ticks counters or octet strings are assigned to these instances these values can be read and in some cases modified The object description or object ID OID identifies the object class The subidentifier SID is used to instantiate them Example The generic object class hmPSState OID 1 3 6 1 4 1 248 14 1 2 1 3 is the description of the abstract information power supply status However it is not possible to read any information from this as the system does not know which power supply is meant Specifying the subidentifier 2 maps this abstract information onto reality instantiates it thus indicating the operating status of power supply 2 A value is assigned to this instance and can then be read The instance get 1 3 6 1 4 1 248 14 1 2 1 3 2 returns the response 1 which means that the po
139. he network to determine whether its IP address already exists If it detects a duplicate IP address it will initially defend its address by employing the ACD mechanism and sending out gratuitous ARPs If the remote device does not disconnect from the network the management interface of the local device will then disconnect from the network Every 15 seconds it will poll the network to determine if there is still an address conflict If there isn t it will connect back to the network Table 22 Possible address conflict operation modes Basic Configuration 178 Release 6 0 07 2010 Operation Diagnosis 9 8 Detecting IP Address Conflicts 9 8 2 Configuring ACD LI With Status you enable disable the IP address conflict detection or L Select the Diagnostics IP Address Conflict Detection dialog select the operating mode see table 22 Basic Configuration Release 6 0 07 2010 179 Operation Diagnosis 9 8 Detecting IP Address Conflicts 9 8 3 Displaying ACD LI Select the Diagnostics IP Address Conflict Detection dialog Inthe table the device logs IP address conflicts with its IP address For each conflict the device logs the time gt the conflicting IP address gt the MAC address of the device with which the IP address conflicted For each IP address the device logs a line with the last conflict that occurred L You can delete this table by restarting the device Status disable a Fault State false v Set R
140. he destination port You can only use physical ports as source or destination ports In port mirroring the device copies valid incoming and outgoing data packets of the source port to the destination port The device does not affect the data traffic at the source ports during port mirroring A management tool connected at the destination port e g an RMON probe can thus monitor the data traffic of the source ports in the sending and receiving directions Switch PLC ac gt Backbone gt gt lt lt RMON Probe es fs See Tey Figure 53 Port mirroring Basic Configuration 184 Release 6 0 07 2010 Operation Diagnosis 9 11 Monitoring Data Traffic at Ports Port Mirroring L Select the Diagnostics Port Mirroring dialog This dialog allows you to configure and activate the port mirroring function of the device LI Select the source ports whose data traffic you want to review from the list of physical ports by checkmarking the relevant boxes You can select a maximum of 8 source ports Ports that cannot be selected are displayed as inactive by the device e g the port currently being used as the destination port or if you have already selected 8 ports Default setting no source ports O Select the destination port to which you have connected your management tool from the list element in the Destination Port frame The device does not display ports that cannot be selected
141. ic Addresses 5 Disabling the Direct Packet Distribution Iticast Application 1 Description of the Multicast Application 2 Example of a Multicast Application 3 Description of IGMP Snooping 4 Setting IGMP Snooping O Setting GMRP e 1 2 Limiter Description of the Rate Limiter Rate Limiter settings oS Priory 1 Description of Prioritization 2 VLAN tagging 3 IP ToS DiffServ 4 Handling of Received Priority Information 5 Handling of Traffic Classes 6 Ww 1 2 fas NNNNNC gt gt t O CHD WWMMMS WMO Setting prioritization DDL mang ARARARABRO ww Control Description of Flow Control Setting the Flow Control gt Z S VLAN Description Examples of VLANs o 0 lt 01 0 0 MMC N Operation Diagnosis Sending Traps 9 1 1 List of SNMP Traps 9 1 2 SNMP Traps during Boot 9 1 3 Configuring Traps Monitoring the Device Status 9 2 1 Configuring the Device Status 9 2 2 Displaying the Device Status Out of band Signaling 9 3 1 Controlling the Signal Contact 9 3 2 Monitoring the Device Status via the Signal Contact 9 3 3 Monitoring the Device Functions via the Signal Contact Port Status Indication Event Counter at Port Level Basic Configuration Release 6 0 07 2010 105 106 107 108 108 109 110 111 117 118 118 119 121 121 122 124 127 127 128 132 132 134 135 135 136 153 154 155 156 157 159 160 161 162 163 163 164 166 167 Contents
142. ice is grounded via the separate ground screw L For the ground conductor use a cable with a cross section of at least 1 0 mm RS20 22 30 32 40 40 Release 17 10 10 2 1 8 Dimension drawings Dimension drawings for RS20 RS30 RS40 13 73 Figure 22 Dimensions of device variants RS20 RS30 RS40 with 8 to max 10 ports RS20 22 30 32 40 Release 17 10 10 41 Figure 23 Dimensions of device variants RS20 RS30 RS40 with 16 to max 26 ports Dimension drawings for RS22 RS32 11 56 137 9 03 Figure 24 Dimensions of device variants RS22 RS32 with 8 to max 10 ports RS20 22 30 32 40 42 Release 17 10 10 120 115 11 56 l pma im ime o hma Asg oles an z oo an A HD HG da HUU 2 e S Figure 25 Dimensions of device variants RS22 RS32 with 16 to max 26 ports Dimension drawings for PoE power units 60 115 7 05 Figure 26 Dimensions of RPS90 48V LV and RPS90 48V HV PoE power units RS20 22 30 32 40 Release 17 10 10 43 2 1 9 Connecting
143. id configuration then finish the loading process by loading the local configuration in the Load frame Basic Configuration Release 6 0 07 2010 43 Entering the IP Parameters 2 6 System Configuration via DHCP 2 6 System Configuration via DHCP The DHCP Dynamic Host Configuration Protocol is a further development of BOOTP which it has replaced The DHCP additionally allows the configuration of a DHCP client via a name instead of via the MAC address For the DHCP this name is known as the client identifier in accordance with rfc 2131 The device uses the name entered under sysName in the system group of the MIB II as the client identifier You can enter this system name directly via SNMP the Web based management see system dialog or the Command Line Interface During startup operation a device receives its configuration data according to the DHCP process flowchart see fig 13 The device sends its system name to the DHCP server The DHCP server can then use the system name to allocate an IP address as an alternative to the MAC address In addition to the IP address the DHCP server sends the netmask the default gateway if available the tftp URL of the configuration file if available The device accepts this data as configuration parameters see on page 48 Web based IP Configuration If an IP address was assigned by a DHCP server it will be permanently saved locally Basic Configura
144. ion 148 Release 6 0 07 2010 Network Load Control 8 6 VLANs 1 1 2 admitAll 1 3 3 admit All 1 4 2 admitAll 1 5 1 1 Set Reload Help Figure 44 Assign and save Port VLAN ID Acceptable Frame Types and Ingress Filtering L Assign the ID of the related VLANs 1 to 3 to the individual ports O Because terminal devices usually do not send data packets with a tag you select the admitA11 setting for the terminal device ports Configure the uplink port with admit only VLAN tags O Activate Ingress Filtering atthe uplink port so that the VLAN tag is evaluated at this port LI Click Set to temporarily save the entry in the configuration L Select the Basics Load Save dialog LI In the Save frame select To Device for the location and click Save to permanently save the configuration in the active configuration Basic Configuration Release 6 0 07 2010 149 Network Load Control enable configure interface 1 1 8 6 VLANs Switch to the Privileged EXEC mode Switch to the Configuration mode Switch to the Interface Configuration mode of interface 1 1 vlan participation include 1 Port 1 1 becomes member untagged in VLAN 1 vlan participation include 2 Port 1 1 becomes member untagged in VLAN 2 vlan tagging 2 Port 1 1 becomes member tagged in VLAN 2
145. ith the VLAN ID 3 vlan name 3 VLAN3 Give the VLAN with the VLAN ID 3 the name VLAN3 vlan name 1 VLAN1 Give the VLAN with the VLAN ID 1 the name VLAN1 exit Leave the VLAN configuration mode show vlan brief Display the current VLAN configuration Maxa VLAN LTDa e dai iii ia a a i ai ia a a dew a i i a a 4042 Max supported VLANS ee ee ee ee ee eens 255 Number of currently configured VLANS 3 VLAN 0 Transparent Mode Prio Tagged Frames Disabled VLAN ID VLAN Name VLAN Type VLAN Creation Time 1 LAN1 Default O days 00 00 05 2 LAN2 Static 0 days 02 44 29 3 LAN3 Static O days 02 52 26 Basic Configuration Release 6 0 07 2010 139 Network Load Control 8 6 VLANs LI Configuring the ports Set Reload Create entry Delete entry Help Figure 39 Defining the VLAN membership of the ports L Assign the ports of the device to the corresponding VLANs by clicking on the related table cell to open the selection menu and define the status The selection options are gt currently not a member of this VLAN GVRP allowed gt T member of VLAN send data packets with tag gt u Member of the VLAN send data packets without tag gt F nota member of the VLAN also disabled for GVRP Because terminal devices usually do not interpret data packets with a tag you select the U setting here LI Click Set to temporarily save the entry in the configuration O Select the Switching
146. ivating 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 This gives you back your access to the device Basic Configuration Release 6 0 07 2010 21 Access to the user interfaces 1 3 Web based Interface Basic Configuration 22 Release 6 0 07 2010 Entering the IP Parameters 2 Entering the IP Parameters The IP parameters must be entered when the device is installed for the first time The device provides 7 options for entering the IP parameters during the first installation Entry using the Command Line Interface CLI You choose this out of band method if you preconfigure your device outside its operating environment you do not have network access in band to the device see page 31 Entering IP parameters via CLI Entry using the HiDiscovery protocol You choose this in band method if the device is already installed in the network or if you have another Ethernet connection between your PC and the device see page 34 Entering the IP Parameters via HiDiscovery Configuration using the AutoConfiguration Adapter ACA You choose this method if you are replacing a device with a device of the same type and have already saved the configuration on an ACA see page 37 Loading the system configuration from the ACA Using BOOTP You choose this in band method if you want t
147. l devices This line contains the number of connected devices MAC addresses of devices that the topology table hides for the sake of clarity are located in the address table FDB see on page 106 Entering Static Addresses Basic Configuration Release 6 0 07 2010 177 Operation Diagnosis 9 8 Detecting IP Address Conflicts 9 8 Detecting IP Address Conflicts 9 8 1 Description of IP Address Conflicts By definition each IP address may only be assigned once within a subnetwork Should two or more devices erroneously share the same IP address within one subnetwork this will inevitably lead to communication disruptions with devices that have this IP address In his Internet draft Stuart Cheshire describes a mechanism that industrial Ethernet devices can use to detect and eliminate address conflicts Address Conflict Detection ACD Mode Meaning enable Enables active and passive detection disable Disables the function activeDetectionOnly Enables active detection only After connecting to a network or after an IP address has been configured the device immediately checks whether its IP address already exists within the network If the IP address already exists the device will return to the previous configuration if possible and make another attempt after 15 seconds This prevents the device from connecting to the network with a duplicate IP address passiveOnly Enables passive detection only The device listens passively on t
148. l dialog With this dialog you can switch off the flow control at all ports or switch on the flow control at those ports for which the flow control is selected in the port configuration table Note When you are using a redundancy function you deactivate the flow control on the participating ports Default setting flow control deactivated globally and activated on all ports If the flow control and the redundancy function are active at the same time there is a risk of the redundancy failing Basic Configuration 134 Release 6 0 07 2010 Network Load Control 8 6 VLANs 8 6 VLANs 8 6 1 VLAN Description In the simplest case a virtual LAN VLAN consists of a group of network participants in one network segment who can communicate with each other as if they belonged to a separate LAN More complex VLANs span out over multiple network segments and are also based on logical instead of only physical connections between network participants Thus VLANs are an element of flexible network design as you can reconfigure logical connections centrally more easily than cable connections The IEEE 802 1Q standard defines the VLAN function The most important benefits of VLANs are Network load limiting VLANs can reduce the network load considerably as a Switch only transmits Broadcast Multicast data packets and Unicast packets with unknown unlearned destination addresses within the virtual LAN The rest of the data network is unaffected
149. lp protect the device from unnecessary network loads The device provides you with the following functions for direct packet distribution Store and forward Multi address capability Aging of learned addresses Static address entries Disabling the direct packet distribution 8 1 1 Store and forward All data received by the device is stored and its validity is checked Invalid and defective data packets gt 1 502 bytes or CRC errors as well as fragments lt 64 bytes are rejected Valid data packets are forwarded by the device 8 1 2 Multi Address Capability The device learns all the source addresses for a port Only packets with unknown destination addresses these destination addresses or a multi broadcast destination address Basic Configuration 104 Release 6 0 07 2010 Network Load Control 8 1 Direct Packet Distribution in the destination address field are sent to this port The device enters learned source addresses in its filter table see on page 106 Entering Static Addresses The device can learn up to 8 000 addresses This is necessary if more than one terminal device is connected to one or more ports It is thus possible to connect several independent subnetworks to the device 8 1 3 Aging of Learned Addresses The device monitors the age of the learned addresses Address entries which exceed a particular age the aging time are deleted by the device from its address table Data packets with an unkno
150. m script The device saves the configuration data in a tftp 10 0 1 159 switch script file on a tftp server in the connected config txt network Basic Configuration Release 6 0 07 2010 59 Loading saving settings 60 3 2 Saving settings Basic Configuration Release 6 0 07 2010 Loading Software Updates 4 Loading Software Updates Hirschmann never stops working on improving the performance of its products So it is possible that you may find a more up to date release of the device software on the Hirschmann Internet site www hirschmann com than the release saved on your device Checking the installed software release O Select the Basics Software dialog LI This dialog shows you the variant the release number and the date of the software saved on the device Stored Version the software in the non volatile memory Running Version the software currently being used Backup Version the backup software in the non volatile memory enable Switch to the Privileged EXEC mode show sysinfo Display the system information AlaYmMa seare ole ratend teas J ncedevw etexe lofede s whee a opete ce 3 None System Description eee ee ee ee eee eee Hirschmann Railswitch System NaMeG ss s dedadeasideaedaasidaceddecedsas RS 1F1054 System Locations resne Terena we Hirschmann Railswitch System CONCACE exe ecaie grace sia ea im
151. me Authentication Link Up Down Spanning Tree Chassis Redundancy Port security Meaning The device has rejected an unauthorized access attempt see the Access for IP Addresses and Port Security dialog At one port of the device the link to another device has been established interrupted The topology of the Rapid Spanning Tree has changed 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 in the Diagnostics Signal Contact 1 2 dialog A media module has been added or removed only for modular devices The AutoConfiguration Adapter ACA was added or removed The configuration on the AutoConfiguration Adapter ACA does not match that of the device The temperature thresholds were not met or were exceeded The receiver power status of a port with an SFP module has changed see dialog Dialog Ports SFP Modules The configuration has been successfully saved in the device and in the AutoConfiguration Adapter ACA if present The configuration has been changed for the first time after being saved in the device The redundancy status of the ring redundancy redundant line active inactive or for devices that support redundant ring network coupling the redundant ring network coupling redundancy exists has
152. minal power LI Nominal Power displays the power that the device nominally provides for all PoE ports together LI Reserved Power displays the maximum power that the device provides to all the connected PoE devices together on the basis of their classification Delivered Power shows how large the current power requirement is at all PoE ports Basic Configuration Release 6 0 07 2010 73 Configuring the Ports The difference between the nominal and reserved power indicates how much power is still available to the free PoE ports CI In the POE on column you can enable disable PoE at this port L The Status column indicates the PoE status of the port O The Class column shows the class of the connected device ClassMaximum power delivered 0 15 4 W state on delivery 1 4 0 W 2 7 0 W 3 15 4 W 4 reserved treat as class 0 C The Name column indicates the name of the port see Basic settings Port configuration Funktion Kontiguration Verschicke Trap Ja Nein Threshold 26 fo an Aus Nominale Leistung MA a Reservierte Leistung VV inns Abgegebene Leistung VV Port Poe an status class veroraucn ow name Schreiben Laden Hilfe Figure 20 Power over Ethernet dialog Basic Configuration 74 Release 6 0 07 2010 Protection from Unauthorized Access 6 Protection from Unauthorized Access The device provides you with the following functions
153. ng config local non volatile memory 3 1 2 Loading from the AutoConfiguration Adapter If a ACA is connected to the device the device automatically loads its configuration from the ACA during the boot procedure The chapter Saving locally and on the ACA on page 57 describes how to save a configuration file on an ACA Note The device allows you to trigger the following events when the configuration stored on the ACA does not match that in the device an alarm trap is sent see on page 157 Configuring Traps the device status is updated see on page 159 Monitoring the Device Status the status of the signal contacts is updated see on page 163 Controlling the Signal Contact Basic Configuration Release 6 0 07 2010 53 Loading saving settings 3 1 Loading settings 3 1 3 Loading from a file The device allows you to load the configuration data from a file in the connected network if there is no AutoConfiguration Adapter connected to the device LI Select the Basics Load Save dialog O In the Load frame click from URL if you want the device to load the configuration data from a file and retain the locally saved configuration from URL amp save to Switch if you want the device to load the configuration data from a file and save this configuration locally via PC if you want the device to load the configuration data from a file from the PC and retain the locally saved configuration LI In the URL
154. ng the IP precedence values to the DSCP value Flash Override 100 CS4 100000 Flash 011 CS3 011000 Immediate 010 CS2 010000 Priority 001 CS1 001000 Routine 000 CSO 000000 DSCP value DSCP name Traffic class default setting 0 Best Effort CSO 1 1 7 1 8 CS1 0 9 11 13 15 0 10 12 14 AF11 AF12 AF13 0 16 CS2 0 17 19 21 23 0 18 20 22 AF21 AF22 AF23 0 24 CS3 1 25 27 29 31 1 26 28 30 AF31 AF32 AF33 1 32 CS4 2 33 35 37 39 2 34 36 38 AF41 AF42 AF43 2 40 CS5 2 41 42 43 44 45 47 2 46 EF 2 48 CS6 3 49 55 3 56 CS7 3 57 63 3 Table 11 Mapping the DSCP values onto the traffic classes Basic Configuration 126 Release 6 0 07 2010 Network Load Control 8 4 QoS Priority 8 4 4 Handling of Received Priority Information The device provides 3 options which can be chosen globally for all ports for selecting how it handles received data packets that contain priority information trust dot1p The device assigns VLAN tagged packets to the different traffic classes according to their VLAN priorities The assignment is based on the pre defined table see on page 122 VLAN tagging You can modify this assignment The device assigns the port priority to packets that it receives without a tag untrusted The device ignores the priority information in the packet and always assigns the packets the port priority of the receiving port trust ip dscp The device assigns the IP packets to the different traffic cla
155. nges risingAlarm is sent if an RMON alarm input exceeds the upper threshold fallingAlarm is sent if an RMON alarm input falls below the lower threshold hmPortSecurityTrap is sent if a MAC IP address is detected at the port which does not correspond to the current settings of hmPortSecPermission and hmPorSecAction is set to either trapOnly 2 or portDisable 3 hmModuleMapChange is sent if the hardware configuration is changed hmBPDUGuardTrap is sent if a BPDU is received at a port when the BPDU Guard function is active hmMrpReconfig is sent if the configuration of the MRP Ring changes hmRingRedReconfig is sent if the configuration of the HIPER Ring changes hmRingRedCplReconfig is sent if the configuration of the redundant ring network coupling changes hmSNTPTrap is sent if errors occur in connection with the SNTP e g server cannot be reached hmRelayDuplicateTrap is sent if a duplicate IP address is detected in connection with DHCP Option 82 IidoRemTablesChangeTra_ is sent if an entry in the topology remote table is changed a ee hmConfigurationSavedTra_ is sent after the device has successfully saved its configuration p locally hmConfigurationChangedT is sent when you change the configuration of the device for the first rap time after it has been saved locally Table 18 Possible traps Basic Configuration Release 6 0 07 2010 155 Operation Diagnosis 9 1 Sending Traps Trap name Meaning hmAddressRelea
156. nn ac com at the end of the product sites in the FAQ category The current training courses to technology and products can be found under http www hicomcenter com Hirschmann Competence Center In the long term excellent products alone do not guarantee a successful customer relationship Only comprehensive service makes a difference worldwide In the current global competition scenario the Hirschmann Competence Center is ahead of its competitors on three counts with its complete range of innovative services Consulting incorporates comprehensive technical advice from system evaluation through network planning to project planing Training offers you an introduction to the basics product briefing and user training with certification Support ranges from the first installation through the standby service to maintenance concepts 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 Basic Configuration Release 6 0 07 2010 217 fh HIRSCHMANN A BELDEN BRAND 039692002171010000 MOO H HIRSCHMANN A BELDEN BRAND User Manual Installation Industrial ETHERNET Rail Switch RS20 RS22 RS30 RS32 RS40 Family HIRSCHMANN B HIRSCHMANN RS32 FNAT lane mag SBD S a Pi FAULT 5 OM 45 O CAO L r O mur stand aM seedy e
157. ns Examples of such events are a hardware reset changes to the configuration segmentation of a port Traps can be sent to various hosts to increase the transmission reliability for the messages A trap message consists of a packet that is not acknowledged The device sends traps to those hosts that are entered in the trap destination table The trap destination table can be configured with the management station via SNMP Basic Configuration 154 Release 6 0 07 2010 Operation Diagnosis 9 1 Sending Traps 9 1 1 List of SNMP Traps All the possible traps that the device can send are listed in the following table Trap name Meaning authenticationFailure is sent if a station attempts to access the agent without permission coldStart is sent for both cold and warm starts during the boot process after successful management initialization hmAutoconfigAdapterTrap is sent when AutoConfiguration AdapterACA is removed or plugged in linkDown is sent if the link to a port is interrupted linkUp is sent as soon as the link to a port is re established hmTemperature is sent if the temperature exceeds the set threshold values hmPowerSupply is sent if the status of the voltage supply changes hmSigConRelayChange _ is sent if the status of the signal contact changes during the operation monitoring newRoot is sent if the sending agent becomes the new root of the spanning tree topologyChange is sent if the transmission mode of a port cha
158. nse to a request from the External server address within 1 second Note If you are receiving the system time from an external redundant server address you do not accept any SNTP Broadcasts see below You thus ensure that the device uses the time of the server entered LI In Server request interval you specify the interval at which the device requests SNTP packets valid entries 1 s to 3600 s on delivery 30 s L With Accept SNTP Broadcasts the device takes the system time from SNTP Broadcast Multicast packets that it receives L With Deactivate client after synchronization the device only synchronizes its system time with the SNTP server one time after the client status is activated then it switches the client off Note If you have enabled PTP at the same time the SNTP client first collects 60 time stamps before it deactivates itself The device thus determines the drift compensation for its PTP clock With the preset server request interval this takes about half an hour Basic Configuration Release 6 0 07 2010 95 Synchronizing the System Time in the 7 2 SNTP Network Configuration SNTP Server E E In Server status you switch the SNTP server of the device on off In Anycast destination address you enter the IP address to which the SNTP server of the device sends its SNTP packets see table 4 In VLAN ID you specify the VLAN to which the device periodically sends i
159. o 95 non condensing Up to 2000 m 795 hPa higher altitudes on request RS20 22 30 32 40 Release 17 10 10 Operating RS20 RS30 RS40 Standard 0 C to 60 C temperature Extended 40 C to 70 C RS22 RS32 Extended 40 C to 50 C RS40 B ATEX Temperature Code T4 Standard S 0 C to 60 C RS40 B ATEX Temperature Code T3 Extended E and T 40 C to 70 C Temperature Code T4 40 C to 60 C RPS90 48V HV 40 C to 70 C RPS90 48V LV 40 C to 70 C Cold start at temperatures above 30 C at an input voltage gt 21 6 V DC Pollution degree 2 Protection classes Laser protection Class 1 according to EN 60825 1 2001 Protection class IP 20 EMC and immunity IEC EN 61000 4 2 Electrostatic discharge Contact discharge 4kV 8 kV 8 kV Air discharge 8 kV 15kV 15 kV IEC EN 61000 4 3 Electromagnetic field 80 3 000 MHz 10V m 20V m 20V m IEC EN 61000 4 4 Fast transients burst Power line 2kV 4kV 4kV Data line 1 kV 4 kV 4kV IEC EN 61000 4 5 Voltage surges Power line line line 0 5kV 1kV 1 kV Power line line earth 1 kV 2kV 2 kV Data line 1 kV 4kV 4 kV IEC EN 61000 4 6 Line conducted interference voltages 10 kHz 150 kHz 3V 3V 3V 150 kHz 80 MHz 10V 10V 10V EN 61000 4 9 Impulse shaped magnetic fields 300 A m 300 A m EMC emitted interference A B3 Ha EN 55022 Class A Yes Yes Yes FCC 47 CFR Part Class A Yes Yes Yes 15 German Lloyd Classification Construction Guideline
160. o configure the installed device using BOOTP You need a BOOTP server for this The BOOTP server assigns the configuration data to the device using its MAC address see page 39 System configuration via BOOTP Because the device is delivered with DHCP mode as the entry for the configuration data reference you have to reset this to the BOOTP mode for this method Configuration via DHCP You choose this in band method if you want to configure the installed device using DHCP You need a DHCP server for this The DHCP server assigns the configuration data to the device using its MAC address or its system name see page 44 System Configuration via DHCP Basic Configuration Release 6 0 07 2010 23 Entering the IP Parameters Using DHCP Option 82 You choose this in band method if you want to configure the installed device using DHCP Option 82 You need a DHCP server with Option 82 for this The DHCP server assigns the configuration data to the device using its physical connection see page 47 System Configuration via DHCP Option 82 Configuration via the Web based interface If the device already has an IP address and can be reached via the network then the Web based interface provides you with another option for configuring the IP parameters Basic Configuration 24 Release 6 0 07 2010 Entering the IP Parameters 2 1 IP Parameter Basics 2 1 IP Parameter Basics 2 1 1 IP address version 4 The IP ad
161. omparable to going from layer 2 to layer 1 i e to sending the data packet over the Ethernet Basic Configuration 28 Release 6 0 07 2010 Entering the IP Parameters 2 1 IP Parameter Basics Lorenzo receives the letter and removes the outer envelope From the inner envelope he recognizes that the letter is meant for Juliet He places the inner envelope in a new outer envelope and searches his address list the ARP table for Juliet s MAC address He writes her MAC address on the outer envelope as the destination address and his own MAC address as the source address He then places the entire data packet in the mail box Juliet receives the letter and removes the outer envelope She finds the inner envelope with Romeo s IP address Opening the inner envelope and reading its contents corresponds to transferring the message to the higher protocol layers of the SO OSI layer model Juliet would now like to send a reply to Romeo She places her reply in an envelope with Romeo s IP address as destination and her own IP address as source But where is she to send the answer For she did not receive Romeo s MAC address It was lost when Lorenzo replaced the outer envelope In the MIB Juliet finds Lorenzo listed under the variable hmNetGatewaylPAddr as a means of communicating with Romeo She therefore puts the envelope with the IP addresses in a further envelope with Lorenzo s MAC destination address The letter now travels back to Romeo via Loren
162. onfiguration data from a switch config dat tftp server in the connected network nvram startup config Note The loading process started by DHCP BOOTP see on page 39 System configuration via BOOTP shows the selection of from URL amp save locally in the Load frame If you get an error message when saving a configuration this could be due to an active loading process DHCP BOOTP only finishes a loading process when a valid configuration has been loaded If DHCP BOOTP does not find a valid configuration then finish the loading process by loading the local configuration in the Load frame Basic Configuration Release 6 0 07 2010 55 Loading saving settings 3 1 Loading settings 3 1 4 Resetting the configuration to the state on delivery The device enables you to reset the current configuration to the state on delivery The locally saved configuration is kept reset the device to the state on delivery After the next restart the IP address is also in the state on delivery O Select the Basics Load Save dialog LI Make your selection in the Delete frame LI Click Delete configuration Setting in the system monitor O Select 5 Erase main configuration file This menu item allows you to reset the device to its state on delivery The device saves configurations other than the original one in its Flash memory in the configuration file cfg L Press the Enter key to delete the configuration file B
163. ort authentication Real Time Clock The Hirschmann network components help you to establish continuous communication across all levels of the company Connect your devices to devices of the MICE family backbone devices of the MACH family the BAT wireless transmission system the EAGLE security system products for the LION control room MACH 100 family RS20 22 30 32 40 Release 17 10 10 13 1 1 Description of the device variants The devices differ with regard to the range of software functions the number of interfaces and the media type for connecting segments The table below shows three port categories for each product variant uplink ports PoE ports and other ports The table also shows for each product category the number of ports you can select and the type of ports In the column for the port type the abbreviations F O optical fiber and TP twisted pair indicate the media type while the abbreviations DSC ST SFP and RJ45 indicate the socket type RS20 22 30 32 40 14 Release 17 10 10 Uplink ports Other ports Variant Numbe Type Number Type r RS20 2 Ports 1 and 2 2 6 14 10 100 Mbit s 10 100 Mbit s 22 TP RJ45 media selectable DSC ST RJ45 3 Ports 1 to 3 6 14 22 10 100 Mbit s 10 100 Mbit s TP RJ45 media selectable DSC ST RJ45 RS22 2 Ports 1 and 2 6 14 22 10 100 Mbit s 10 100 Mbit s TP RJ45 media selectable DSC ST RJ45 3 Ports 1 to 3 6 14 22 10 100 Mbit s 10 100 Mbit s TP RJ45 medi
164. owing label E II 3G followed by other specifications The product must be mounted in a suitable IP 54 certified housing tested to 4 J impact to minimize the risk of mechanical damage For ambient temperatures below 10 C and above 60 C use wiring suitable for both the minimum and maximum temperatures Connectors may be connected exclusively in dead voltage state DIP switches may be switched exclusively in dead voltage state LI The device does not contain any service components Internal fuses are only triggered if there is a fault in the device If the device is not functioning correctly or if it is damaged switch off the voltage supply and return the device to the plant for inspection L Only switch on the supply voltage to the device if the housing is closed the terminal blocks are wired up correctly and the terminal blocks are connected Supply voltage for PoE power supply units optional O Connect the protective conductor with the ground screw before you set up the other connections When removing the connections you remove the protective conductor last O Make sure that the cross section of the protective conductor cable is the same size as or bigger than the cross section of the voltage supply cables L Only use connection cables that are permitted for the specified temperature range RS20 22 30 32 40 Release 17 10 10 5 Warning AN If the neutral conductor or the negative terminal of the supply volta
165. power unit RPS90 48V LV Overload current protection at input Insulation voltage between operating voltage connections and housing FAULT signal contact Environment 54 Nominal voltage AC Voltage range AC Power consumption at 110 V AC Power consumption at 230 V AC Nominal voltage DC Voltage range DC Current consumption at 60 V DC Current consumption at 250 V DC Connection type Output voltage Power output Power failure bypass Nominal voltage DC Voltage range DC Current consumption at 24 V DC Current consumption at 48 V DC Connection type Output voltage Power output Power failure bypass Switching current Switching voltage Storage temperature ambient air Humidity Air pressure 110 230 V 50 60 Hz 90 265 V 47 63 Hz incl max tolerances 1 00 A 0 50 A 60 250 V 48 320 V incl max tolerances 1 70 A 0 39 A 3 pin terminal block 48 54 V DC variable default value 48 V DC At up to 60 C 90 W At 60 C to 70 C 60 W gt 10 ms 24 48 V 18 60 V incl max tolerances 4 20 A 2 10 A 2 pin terminal block 48 54 V DC variable default value 48 V DC At up to 60 C 90 W At 60 C to 70 C 60 W gt 10 ms Non replaceable fuse 800 V DC Protective elements limit the insulation voltage to 90 V DC 1mA max 1 A SELV max 60 V DC or max 30 V AC SELV Standard 40 C to 70 C Extended 40 C to 85 C 10 t
166. ress see on page 104 Multi Address Capability This information is written to a dynamic part dotligqTpFdbTable Addresses learned dynamically from neighboring agents and those learned via GMRP are written to the other dynamic part Addresses already located in the static filter table are automatically transferred to the dynamic part by the device An address entered statically cannot be overwritten through learning Note If the ring manager is active it is not possible to make permanent unicast entries Note This filter table allows you to create up to 100 filter entries for Multicast addresses Basic Configuration 106 Release 6 0 07 2010 Network Load Control 8 1 Direct Packet Distribution L Select the Switching Filters for MAC Addresses dialog Each row of the filter table represents one filter Filters specify the way in which data packets are sent They are set automatically by the Switch learned status or created manually Data packets whose destination address is entered in the table are sent from the receiving port to the ports marked in the table Data packets whose destination address is not in the table are sent from the receiving port to all other ports In the Create filter dialog you can set up new filters The following status settings are possible learned The filter was created automatically by the device invalid With this status you delete a manually created filter permanent The filter is stor
167. rk components or the associated operating software 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 ac de Printed in Germany Hirschmann Automation and Control GmbH Stuttgarter Str 45 51 72654 Neckartenzlingen Germany Tel 49 1805 141538 Rel 6 0 1 01 07 2010 13 7 10 Contents Contents 1 1 1 2 1 3 2 1 2 2 2 3 2 4 2 5 2 6 2 1 2 8 2 9 3 1 3 2 About this Manual Key Introduction Access to the user interfaces System Monitor Command Line Interface Web based Interface Entering the IP Parameters IP Parameter Basics 2 1 1 IP address version 4 2 1 2 Netmask 2 1 3 Classless Inter Domain Routing Entering IP parameters via CLI Entering the IP Parameters via HiDiscovery Loading the system configuration from the ACA System configuration via BOOTP System Configuration via DHCP System Configuration via DHCP Option 82 Web based IP Configuration Faulty Device Replacement Loading saving settings Loading settings 3 1 1 Loading from the local non volatile memory Loading from the AutoConfiguration Adapter Loading from a file Resetting the configuration to the state on delivery BROWN aving settings 3 1 3 1 3 1 S 3 2 1 Saving locally and on the ACA Basic Configuration Release 6 0 07 2010 Contents 4 2 4 3 4 4 6 1 6 2 6 3
168. rnDetectT is sent when Address Relearn Detection is activated and the rap threshold for the MAC addresses relearned at different ports has been exceeded This process very probably indicates a loop situation in the network hmDuplexMismatchTrap is sent if the device has detected a potential problem with the duplex mode of a port Table 18 Possible traps 9 1 2 SNMP Traps during Boot The device sends the ColdStart trap every time it boots Basic Configuration 156 Release 6 0 07 2010 Operation Diagnosis 9 1 Sending Traps 9 1 3 Configuring Traps O Select the Diagnostics Alarms Traps dialog This dialog allows you to determine which events trigger an alarm trap and where these alarms should be sent O Select Create entry L In the IP Address column enter the IP address of the recipient to whom the traps should be sent LI In the Active column you select the entries which should be taken into account when traps are being sent L In the Selection frame select the trap categories from which you want to send traps Note You need read write access for this dialog Selection Index Address Enabled Authentication IV Link UpDown V Spanning Tree V Port security IV Set Reload Create entry Delete Help Figure 45 Alarms dialog Basic Configuration Release 6 0 07 2010 157 Operation Diagnosis 9 1 Sending Traps The events which can be selected are Na
169. rts are set to the Automatic configuration operating mode Note The active automatic configuration has priority over the manual configuration L Select the Basics Port Configuration dialog LI If the device connected to this port requires a fixed setting select the operating mode transmission rate duplex mode in the Manual configuration column and deactivate the port in the Automatic configuration column Basic Configuration Release 6 0 07 2010 71 Configuring the Ports Displaying connection error messages In the state on delivery the device displays connection errors via the signal contact and the LED display The device allows you to suppress this display because you do not want to interpret a switched off device as an interrupted connection for example O Select the Basics Port Configuration dialog LI In the Propagate connection error column select the ports for which you want to have link monitoring Configuring Power over ETHERNET Devices with Power over ETHERNET PoE media modules or PoE ports enable you to supply current to terminal devices such as IP phones via the twisted pair cable POE media modules and PoE ports support Power over ETHERNET according to IEEE 802 3af On delivery the Power over ETHERNET function is activated globally and at all ports Nominal power for MS20 30 MACH 1000 and PowerMICE The device provides the nominal power for the sum of all PoE ports plus a surplus B
170. rver to which you want to refuse access enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode lineconfig Switch to the configuration mode for CLI transport input telnet Enable Telnet server no transport input telnet Disable Telnet server exit Switch to the Configuration mode ip http server Enable Web server no ip http server Disable Web server ip ssh Enable SSH function on Switch no ip ssh Disable SSH function on Switch Basic Configuration 82 Release 6 0 07 2010 Protection from Unauthorized Access 6 4 HiDiscovery Access 6 4 HiDiscovery Access 6 4 1 Description of the HiDiscovery Protocol The HiDiscovery protocol allows you to allocate an IP address to the device on the basis of its MAC address see on page 34 Entering the IP Parameters via HiDiscovery HiDiscovery is a Layer 2 protocol Note For security reasons restrict the HiDiscovery function for the device or disable it after you have assigned the IP parameters to the device 6 4 2 Enabling disabling the HiDiscovery Function LI Select the Basics Network dialog L Disable the HiDiscovery function in the HiDiscovery Protocol frame or limit the access to read only enable Switch to the Privileged EXEC mode network protocol hidiscovery Disable HiDiscovery function off network protocol hidiscovery Enable HiDiscovery function with read only read only access network protocol hidiscovery Enable HiDiscove
171. ry function with read write read write access Basic Configuration Release 6 0 07 2010 83 Protection from Unauthorized Access 6 4 HiDiscovery Access 6 4 3 Description of the Port Access Control You can configure the device in such a way that it helps to protect every port from unauthorized access Depending on your selection the device checks the MAC address or the IP address of the connected device The following functions are available for monitoring every individual port The device can distinguish between authorized and unauthorized access and supports two types of access control Access for all no access restriction MAC address 00 00 00 00 00 00 or IP address 0 0 0 0 Access exclusively for defined MAC and IP addresses only devices with defined MAC or IP addresses have access You can define up to 10 IP addresses MAC addresses or maskable MAC addresses The device can react to an unauthorized access attempt in 3 selectable ways none no response trapOnly message by sending a trap portDisable message by sending a trap and disabling the port 6 4 4 Application Example for Port Access Control You have a LAN connection in a room that is accessible to everyone To set the device so that only defined users can use the LAN connection activate the port access control on this port An unauthorized access attempt will cause the device to shut down the port and alert you with an alarm message Th
172. s On delivery there is no link monitoring Event in the ring redundancy Loss of the redundancy in ring manager mode On delivery there is no ring redundancy monitoring Event in the ring network coupling Loss of the redundancy On delivery there is no ring redundancy monitoring The following conditions are also reported by the device in standby mode Defective link status of the control line Partner device is in standby mode Select the corresponding entries to decide which events the device status includes Basic Configuration Release 6 0 07 2010 159 Operation Diagnosis 9 2 Monitoring the Device Status 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 163 Monitoring the Device Status via the Signal Contact 9 2 1 Configuring the Device Status O Select the Diagnostics Device Status dialog LI In the Monitoring field you select the events you want to monitor LI To monitor the temperature you set the temperature thresholds in the Basics System dialog at the end of the system data enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode device status monitor all Include all the possible events in the device error status determination device status trap enable Enable a trap to be s
173. s Possible Causes of Port Error Events The following table lists the duplex operating modes for TX ports together with the possible error events The terms in the table mean Collisions In half duplex mode collisions mean normal operation Duplex problem Duplex modes do not match EMI Electromagnetic interference Network extension The network extension too great or too many hubs are cascaded Basic Configuration Release 6 0 07 2010 169 Operation Diagnosis 9 5 Event Counter at Port Level Collisions late collisions In full duplex mode the port does not count collisions or late collisions CRC error The device only evaluates these errors as duplex problems in the manual full duplex mode No Autonegotiati on 1 On 2 On 3 On 3 3 O MO N o oaya O o Q h h h h j aja jM Or O1 B OG RP OJO 9 OIO h Current duplex mode Half duplex Half duplex Half duplex Half duplex Full duplex Full duplex Full duplex Full duplex Half duplex Half duplex Half duplex Half duplex Full duplex Full duplex Full duplex Full duplex Detected error events 2 10 None Collisions Late collisions CRC error None Collisions Late collisions CRC error None Collisions Late collisions CRC error None Collisions Late collisions CRC error Evaluation of duplex situation by device OK OK Possible causes Duplex problem Duplex problem EMI
174. s RS40 O0O09CCCCEDAP 1 1 3 Number of ports and media for RS20 rau RS20 1 ov_ov vi m P FAULT 0006 fe Stand by 3 stand oy MON om 7 5 9 miin j 8 fas sosi Bia Bis T eel 6 i a 3 in j g I iO HOSA RS20 0400T1T1 D RS20 0400M2T1 D RS20 0400M2M2 D Figure 1 Device variants with 4 10 100 Mbit s ports RS20 0400 1 plug in terminal block 6 pin 2 LED display elements 3 2 pin DIP switch 4 USB interface 5 V 24 connection for external management 6 ports in compliance with 10 100BASE T X RJ45 connections 7 port 1 port 2 free choice of connections T1 Twisted pair T X RJ45 10 100 Mbit s M2 Multimode FX DSC 100 Mbit s RS20 22 30 32 40 20 Release 17 10 10 M4 Multimode FX ST 100 Mbit s S2 Singlemode FX DSC 100 Mbit s S4 Singlemode FX ST 100 Mbit s L2 Singlemode Longhaul FX DSC 100 Mbit s G2 Singlemode Longhaul FX DSC 100 Mbit s 200 km 8 MAC address field 9 IP address field FAULTA RS20 1 E ov mi t P FAULT 1S ODA Sand nee OS 3 RM Stand b oN 7 _ p C zI 5 Aufkleber MAC Adresse O RS20 0800M2M2 D RS20 0800M27T1 D RS20 0800T1T1 D Figure 2 Device variants with 8 10 100 Mbit s ports RS20 0800 1 to 9 see fig 1 RS20 22 30 32 40 Release 17 10 10 21 Stand oe Sig 4
175. s VI Yes Yes 7 3 Part 1 Ed 2001 Stability A B3 Ha Vibration IEC 60068 2 6 Test FC test level according Yes Yes Yes to IEC 61131 2 Germanischer Lloyd Guidelines for the Yes Yes Performance of Type Tests Part 1 RS20 22 30 32 40 Release 17 10 10 55 Stability Aa Ba Ha IEC 870 2 2 table 3 normal installation Yes Yes according to EN 61850 3 Shock IEC 60068 2 27 Test Ea test level according Yes Yes Yes to IEC 61131 2 IEC 870 2 2 table 3 normal installation Yes Yes according to EN 61850 3 a Product code A Certification CE UL Product code B Certification CE UL GL railway along track sub station ATEX Product code H Certification CE UL GL railway along track sub station _ Bse 16 Combination options for RS20 30 and page 19 Combination options for Network range TP port Length of a twisted pair segment max 100 m 328 ft cat5e cable with 1OOOBASE T Table 15 TP port 1OBASE T 100BASE TX 1000BASE T Product Wave Fiber System Expansion Fiber data code length attenuatio n M2 MM MM 1300 nm_ 50 125 um _ 0 8 dB 0 5 km 1 0 dB km 800 MHz km M2 MM MM 1300 nm_ 62 5 125 um 0 11 dB 0 4 km 1 0 dB km 500 MHz km S2 VV SM 1300nm 9 125 um 0 16 dB 0 30 km 0 4 dB km 3 5 ps nm km E2 EE SM 1300nm 9 125um 7 29 dB 20 65 km 0 4 dB km 3 5 ps nm km L2 LL LH 1550nm_ 9 125 um 7 29dB 24 86km 0 3 dB km 19 ps nm km G2 GG LH 1550nm_ 9 125 um 14 47 dB 67 176km_ 0 25 dB km 19 ps nm km
176. s the password unencrypted so that this can also be read Note Use between 5 and 32 characters for the password in SNMPv3 since many applications do not accept shorter passwords C Select the Security SNMPv1 v2 access dialog With this dialog you can select the access via SNMPv1 or SNMPv2 In the state on delivery both protocols are activated You can thus manage the device with HiVision and communicate with earlier versions of SNMP If you select SNMPv1 or SNMPv2 you can specify in the table via which IP addresses the device may be accessed and what kinds of passwords are to be used Up to 8 entries can be made in the table For security reasons the read password and the read write password must not be identical Please note that passwords are case sensitive Index Serial number for this table entry Password Password with which this computer can access the device This password is independent of the SNMPv2 password IP address IP address of the computer that can access the device IP mask IP mask for the IP address Basic Configuration Release 6 0 07 2010 79 Protection from Unauthorized Access 6 2 Password for SNMP access Access The access mode determines whether the computer has mode read only or read write access Active Enable disable this table entry SNMPy1 enabled V SNMPv2 enabled V Set Reload Create entry Delete Help Figure 22 SNMPv1 2 access dialog L To create a new line in th
177. ser manual contains a device description safety instructions a description of the display and the other information that you need to install the device The Redundancy Configuration user manual contains the information you need to select a suitable redundancy procedure and configure that procedure The Industry Protocols user manual describes how the device is connected by means of a communication protocol commonly used in the industry such as EtherNet IP and PROFINET IO The Web based Interface reference manual contains detailed information on using the Web interface to operate the individual functions of the device Basic Configuration Release 6 0 07 2010 7 About this Manual The Command Line Interface reference manual contains detailed information on using the Command Line Interface to operate the individual functions of the device The Network Management Software HiVision Industrial HiVision provides you with additional options for smooth configuration and monitoring Configuration of multiple devices simultaneously Graphical interface with network layouts Auto topology discovery Event log Event handling Client Server structure Browser interface ActiveX control for SCADA integration SNMP OPC gateway Basic Configuration 8 Release 6 0 07 2010 Key Key The designations used in this manual have the following meanings List O Work step Subheading Link Indicates a cross reference with a
178. serve the EMC threshold values FCC note This device complies with part 15 of FCC rules Operation is subject to the following two conditions 1 This device may not cause harmful interference 2 this device must accept any interference received including interference that may cause undesired operation Appropriate testing has established that this device fulfills the requirements of a class A digital device in line with part 15 of the FCC regulations These requirements are designed to provide sufficient protection against interference when the device is being used in a business environment The device creates and uses high frequencies and can radiate same and if it is not installed and used in accordance with this operating manual it can cause radio transmission interference The use of this device in a living area can also cause interference and in this case the user is obliged to cover the costs of removing the interference Recycling note After usage this product must be disposed of properly as electronic waste in accordance with the current disposal regulations of your county state and country RS20 22 30 32 40 Release 17 10 10 About this Manual The Installation user manual contains a device description safety instructions a description of the display and the other information that you need to install the device The following manuals are available as PDF files on the CD ROM supplied Installation user manual
179. set the counters click on Reset port counters in the Basics Restart dialog Basic Configuration Release 6 0 07 2010 167 Operation Diagnosis 9 5 Event Counter at Port Level i etecte Detected Packets Packets Packets erro Collisions 64 bytes 65 to 127 bytes 128 to 255 bytes 0 0 0 0 C 0 0 316 285 i 1603 81 0 a 26 T 899 140 2483 511 2486 519 4156 Reload Help Figure 49 Port Statistics dialog 9 5 1 Detecting Non matching Duplex Modes If the duplex modes of 2 ports directly connected to each other do not match this can cause problems that are difficult to track down The automatic detection and reporting of this situation has the benefit of recognizing it before problems occur This situation can arise from an incorrect configuration e g if you deactivate the automatic configuration at the remote port A typical effect of this non matching is that at a low data rate the connection seems to be functioning but at a higher bi directional traffic level the local device records a lot of CRC errors and the connection falls significantly below its nominal capacity Basic Configuration 168 Release 6 0 07 2010 Operation Diagnosis 9 5 Event Counter at Port Level The device allows you to detect this situation and report it to the network management station In the process the device evaluates the error counters of the port in the context of the port setting
180. software LI Click on Update to load the software from the tftp server to the device Stored Version RAM Running Version BAK Backup Version L2E 05 0 00 K30 2009 05 06 00 41 RAM L2E 05 0 00 K30 2009 05 06 00 41 BAK not available on L2E tftp Software Update URL tftp 192 168 1 100 product product bin Update http Software Update File ES y id E Update Reload Help Figure 19 Software update dialog LI After successfully loading it you activate the new software Select the dialog Basic Settings Restart and perform a cold start In a cold start the device reloads the software from the non volatile memory restarts and performs a self test LI After booting the device click Reload in your browser to access the device again enable Switch to the Privileged EXEC mode copy tftp 10 0 1 159 Transfer the rsL2E bin software file to the device rsL2E bin system image from the tftp server with the IP address 10 0 1 159 Basic Configuration Release 6 0 07 2010 69 Loading Software Updates 4 4 Loading the Software via File Selection 4 4 Loading the Software via File Selection For an HTTP software update via a file selection window the device software must be on a data carrier that you can access via a file selection window from your workstation O Select the Basics Software dialog L In the file selection frame click on CI In the file selection window select the device software
181. sses according to the DSCP value in the IP header even if the packet was also VLAN tagged The assignment is based on the pre defined values see table 11 You can modify this assignment The device prioritizes non IP packets according to the port priority 8 4 5 Handling of Traffic Classes For the handling of traffic classes the device provides Strict Priority Basic Configuration Release 6 0 07 2010 127 Network Load Control 8 4 QoS Priority Description of Strict Priority With the Strict Priority setting the device first transmits all data packets that have a higher traffic class before transmitting a data packet with the next highest traffic class The device transmits a data packet with the lowest traffic class only when there are no other data packets remaining in the queue In some cases a high level of data traffic can prevent packets with lower traffic classes from being sent In applications that are time or latency critical such as VoIP or video this method ensures that high priority data is sent immediately 8 4 6 Setting prioritization Assigning the Port Priority O Select the QoS Priority Port Configuration dialog LI In the Port Priority column you can specify the priority 0 7 with which the device sends data packets which it receives without a VLAN tag at this port Note If you have set up VLANs pay attention to the Transparent mode see Switching VLAN Global enable Switch to
182. ssword for access with Web based interface Password for CLI access Password for SNMPv3 access PHB Polling Port configuration Port Mirroring Port mirroring Port priority Power over ETHERNET Precedence Precision Time Protocol Priority Priority queues Priority tagged frames PROFINET IO PTP PTP subdomains Q QoS Query Query function Queue R Rate Limiter Settings Read access Real time Reboot Receiver power status Receiving port Redundancy Reference clock Relay contact Release Remote diagnostics Report Request interval SNTP 125 89 98 122 127 121 122 7 89 90 98 100 121 110 112 128 119 90 93 98 162 61 162 110 182 95 Basic Configuration Release 6 0 07 2010 Index Reset 65 Restart 65 Ring manager 106 Ring Network Coupling 7 Ring Network coupling source for alarms 158 RIPE NCC 25 RMON probe 184 Router 26 S Segmentation 154 Service 182 Service provider 25 SFP module 172 SFP Module source for alarms 158 SFP status display 172 Signal contact 72 162 Signal contact source for alarm 158 Signal runtime 93 Simple Network Time Protocol 89 SNMP 19 77 154 SNMPv3 access password 78 SNTP 89 92 94 SNTP client 92 95 96 SNTP server 92 Software 204 Software release 61 Source address 104 State on deliver 56 State on delivery 56 77 Static 106 Strict Priority 127 128 Subdomains 100 Subidentifier 206 Subnetwork 32 105 Summer time 90 Supply
183. t gt gt 0 maximum number of outbound broadcasts per second that can be sent at this port Egress Limiter Rate for the entire data stream 0 no rate limit for outbound data stream at this port gt gt 0 maximum outbound transmission rate in kbit s sent at this port r Ingress Limiter kbit s Egress Limiter Pkt s Packet Type BC Egress Limiter kbit s Packet Type all Function C On Off Function C On Off Function On Off naes ps Co nh ee Packet Type BC Packet Type a 1 1 BC 0 0 0 a 1 2 BC 0 0 0 1 3 BC 0 0 0 1 4Bc 0 0 0 1 5BC o 0 0 1 B BC 0 0 0 1 7 BC 0 0 0 ape o 0 0 1 3BC 0 0 0 1 1068C 0 0 0 1 11 BC 0 0 0 1 1218c 0 0 0 3 BC 0 0 0 1 14 BC 0 0 0 1 151l ee i i 3 zi Set Reload Help w Figure 32 Rate Limiter Basic Configuration 120 Release 6 0 07 2010 Network Load Control 8 4 QoS Priority 8 4 QoS Priority 8 4 1 Description of Prioritization This function prevents time critical data traffic such as language video or real time data from being disrupted by less time critical data traffic during periods of heavy traffic By assigning high traffic classes for time critical data and low traffic classes for less time critical data this provides optimal data flow for time critical data traffic The device supports 4 priority queues traffic classes in compliance with IEEE 802 1D The assignment of received data pack
184. t Mask Default Gateway Product Name DCP Hidiscovery 1 00 80 63 51 74 00 Vv 10 0 1 105 255 255 255 0 10 0 1 200 Ims4128 5 PowerMICE 518280 O Vv 2 00 80 63 1F 10 54 Vv 10 0 1 13 255 255 255 0 10 0 1 200 RS20 1600T1T RS 1F1054 DO Iv 3 00 80 63 18 2F CE Iv 10 0 1 100 255 255 255 0 0 0 0 0 EAGLE mGuard r Iv 4 00 80 63 0F 1D B0 Vv 10 0 1 5 255 255 255 0 0 0 0 0 RS2 Gerhards RS2 m Vv 5 00 80 63 51 74 80 Vv 10 0 1 116 255 255 255 0 10 0 1 200 M54128 5 PowerMICE 518280 O Iv 6 00 80 63 51 82 80 Vv 10 0 1 112 255 255 255 0 10 0 1 200 M54128 L3P PowerMICE 518280 Cr Vv 7 00 80 63 10 98 07 Iv 10 0 1 53 255 255 255 0 0 0 0 0 M53124 4 Gerhards MICE O IV 8100 80 63 17 2B 79 Iv 10 0 1 4 255 255 255 0 0 0 0 0 RS2 Hirschmann RS2 O Iv 9 00 30 63 44 47 B3 Iv 10 0 1 10 255 255 255 0 0 0 0 0 R520 0400M2 RS 4447B3 r IV 10 00 80 63 2F FB B3 IV 10 0 1 2 255 255 255 0 10 0 1 200 MICE 2FFBBS E V Figure 10 HiDiscovery When HiDiscovery is started it automatically searches the network for those devices which support the HiDiscovery protocol HiDiscovery uses the first PC network card found If your computer has several network cards you can select these in HiDiscovery on the toolbar HiDiscovery displays a line for every device which reacts to the HiDiscovery protocol HiDiscovery enables you to identify the devices displayed L Select a device line LI Click on the signal symbol in the tool bar to set th
185. t be separated by a dash or colon T Cleat Identite Circuit Identifier Re ier or a Hardware address IP Address Optional Configuration Profile Remark T Redundant entry fallow entry with an existing IP address ox ay cre Figure 68 Default setting for the fixed address assignment C Inthe Hardware address field you enter the Circuit Identifier and the Remote Identifier see DHCP Relay Agent in the Web based Interface reference manual With Hardware address you Identify the device and the port to which that device is connected to which you want the assign the IP address in the line below it The hardware address is in the following form ciclhhvvvvssmmpprirlxxxxxxXxXXxXXX 198 ci sub identifier for the type of the circuit ID cl length of the circuit ID hh Hirschmann ID 01 if a Hirschmann device is connected to the port otherwise 00 vvvv VLAN ID of the DHCP request default 0001 VLAN 1 ss socket of device at which the module with that port is located to which the device is connected Enter the value 00 mm module with the port to which the device is connected pp port to which the device is connected ri sub identifier for the type of the remote ID rl length of the remote ID XXXXXXXXXXXX remote ID of the device e g MAC address to which a device is connected Basic Configuration Release 6 0 07 2010 Setting up the Configuration A 2 Setting up a D
186. t transfers frames with this IP Multicast group address in the destination field only in accordance with the routing table Devices which no longer want to be members of a Multicast group can cancel their membership by means of a Leave message from IGMP version 2 and they do not transmit any more Report messages In IGMP versions 1 and 2 the router removes the routing table entry if it does not receive any Report messages within a specified period of time aging time If there are a number of routers with an active IGMP function in the network then they work out among themselves in IGMP version 2 which router carries out the Query function If there is no router in the network then a suitably equipped Switch can perform the Query function A Switch that connects a Multicast receiver with a router can evaluate the IGMP information with the aid of the IGMP Snooping procedure IGMP Snooping translates IP Multicast group addresses into MAC Multicast addresses so that the IGMP functions can also be used by Layer 2 Switches The Switch records the MAC addresses of the Multicast receivers with are obtained via IGMP Snooping from the IP addresses in the static address table The Switch thus transmits these Multicast packets exclusively at the ports at which Multicast receivers are connected The other ports are not affected by these packets A special feature of the device is that you can specify whether it should drop data packets with unre
187. ted stored installed and assembled properly and correctly Furthermore it must be operated and serviced carefully Supply voltage For safety reasons the devices have been designed to operate at low voltages Thus they may only be connected to the supply voltage connections and to the signal contact with SELV circuits with the voltage restrictions in accordance with IEC EN 60950 1 The supply voltage is electrically isolated from the housing L Use undamaged parts RS20 22 30 32 40 4 Release 17 10 10 L Relevant for North America For use in Class 2 circuits The device may only be connected to a supply voltage of class 2 that fulfills the requirements of the National Electrical Code Table 11 b If the voltage is being supplied redundantly two different voltage sources the combined supply voltages must fulfill the requirements of the National Electrical Code Table 11 b L Relevant for North America For use in Class 2 circuits Only use copper wire conductors of class 1 75 C 167 F L Relevant for North America for devices certified for hazardous locations Power input and output I O wiring must be in accordance with Class Division 2 wiring methods Article 501 4 b of the National Electrical Code NFPA 70 and in accordance with the authority having jurisdiction O Relevant for RS20 devices and RS30 devices used in explosive gas atmospheres according to ATEX Directive 94 9 EC Make sure that the device has the foll
188. the TOS field and is used to mark the individual packets with a DSCP Here the packets are divided into different quality classes The first 3 bits of the DSCP are used to divide the packets into classes The next 3 bits are used to further divide the classes on the basis of different criteria In contrast to the ToS byte DiffServ uses six bits for the division into classes This results in up to 64 different service classes Bits 0 1 2 3 4 5 6 T i Currently i F Unused Clags S ector CY Codepoints Figure 35 Differentiated Services field in the IP header The different DSCP values get the device to employ a different forwarding behavior namely Per Hop Behavior PHB PHB classes Class Selector CSO CS7 For reasons of compatibility to TOS IP Precedence gt Expedited Forwarding EF Premium service Reduced delay jitter packet loss RFC2598 Assured Forwarding AF Provides a differentiated schema for handling different data traffic RFC2597 gt Default Forwarding Best Effort No particular prioritizing The PHB class selector assigns the 7 possible IP precedence values from the old ToS field to specific DSCP values thus ensuring the downwards compatibility Basic Configuration Release 6 0 07 2010 125 Network Load Control 8 4 QoS Priority ToS Meaning Precedence Value Assigned DSCP Network Control 111 CS7 111000 Internetwork Control 110 CS6 110000 Critical 101 CS5 101000 Table 10 Assigni
189. the configuration stored on the ACA does not match that in the device an alarm trap is sent see on page 157 Configuring Traps the device status is updated see on page 160 Configuring the Device Status the status of the signal contacts is updated see on page 163 Controlling the Signal Contact 3 2 2 Saving to a file on URL The device allows you to save the current configuration data in a file in the connected network Note The configuration file includes all configuration data including the password Therefore pay attention to the access rights on the tftp server Basic Configuration 58 Release 6 0 07 2010 Loading saving settings 3 2 Saving settings L Select the Basics Load Save dialog CI In the Save frame click to URL binary to receive a binary file or to URL script to receive an editable and readable script LI In the URL frame enter the path under which you want the device to save the configuration file The URL identifies the path to the tftp server on which the device saves the configuration file The URL is in the format tftp IP address of the tftp server path name file name e g tftp 10 1 112 5 switch config dat L Click Save enable Switch to the Privileged EXEC mode copy nvram startup config The device saves the configuration data ina tftp 10 1 112 1597 binary file on a tftp server in the connected switch config dat network copy nvra
190. the AutoConfiguration Adapter If the version of the software on the ACA is newer or older than the version on the device the device performs a software update Note Software versions with release 06 0 00 and higher in the non volatile memory of the device support the software update via the ACA If the device software is older you have the option of loading the software manually from the ACA see page 63 L Give the file the name that matches the device type and the software variant e g rsL2P bin for device type RS2 with the software variant L2P Please note the case sensitivity here If you have copied the software from a CD ROM or from a Web server of the manufacturer the software already has the correct file name O Also create an empty file with the name autoupdate txt in the main directory of the ACA Please note the case sensitivity here LI Connect the AutoConfiguration Adapter to the device and restart the device L The device automatically performs the following steps During the booting process it checks whether an ACA is connected It checks whether the ACA has a file with the name autoupdate txt in the main directory It checks whether the ACA has a software file with a name that matches the device type in the main directory lf compares the software version stored on the ACA with the one stored on the device If these conditions are fulfilled the device loads the software from the
191. the Privileged EXEC mode configure Switch to the Configuration mode interface 1 1 Switch to the Interface Configuration mode of interface 1 1 vlan priority 3 Assign port priority 3 to interface 1 1 exit Switch to the Configuration mode Basic Configuration 128 Release 6 0 07 2010 Network Load Control 8 4 QoS Priority Assigning the VLAN Priority to the Traffic Classes O Select the QOS Priority 802 1D p Mapping dialog L In the Traffic Class column enter the desired values enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode classofservice dotip Assign traffic class 2 to VLAN priority 0 mapping 0 2 classofservice dotip Also assign traffic class 2 to VLAN priority 1 mapping 1 2 exit Switch to the privileged EXEC mode show classofservice dotip Display the assignment mapping User Priority Traffic Class 0 2 1 2 2 0 3 1 4 2 5 2 6 3 7 3 Assigning the traffic class to a DSCP L Select the QOS Priority IP DSCP Mapping dialog L In the Traffic Class column enter the desired values enable Switch to the Privileged EXEC mode configure Switch to the Configuration mode classofservice ip dscp Assign traffic class 1 to DSCP CS1 mapping csl 1 Basic Configuration Release 6 0 07 2010 129 Network Load Control 8 4 QoS Priority show classofservice ip dscp mapping IP DSCP Traffic Class 0 be cs0 2 1 2 8 cs1 1 Always assign th
192. the RPS90 48V LV low voltage PoE power unit you connect a DC supply voltage of 24 V DC to 48 V DC at the input connection The supply voltage is connected via pin 1 and pin 2 Figure Pin Assignment Voltage range i 1 Minus terminal of the supply voltage Low voltage input voltage 24 ce 2 Plus terminal of the supply voltage V DC to 48 V DC Table 7 Connecting the low voltage supply voltage at PoE power unit RPS90 48V LV LI First connect the protective conductor to the protective conductor terminal LI Connect the DC voltage to the 2 pin terminal block O Use a supply cable with a maximum length of 2 meters to the power unit RPS90 48V HV connecting the input voltage With the RPS90 48V HV high voltage PoE power unit you connect either a DC or AC supply voltage at the input connection 60 V DC to 250 V DC 110 V AC to 230 V AC RS20 22 30 32 40 Release 17 10 10 35 The supply voltage is connected via pin 2 and pin 3 and the protective conductor is connected via pin 1 Figure Pin Assignment Voltage range i 1 Protective conductor High voltage input voltage i E gt 2 Minus terminal of the supply voltage 110 V AC to 230 V AC IL 3 3 Plus terminal of the supply voltage Table 8 Connecting the high voltage supply voltage at POE power unit RPS90 48V HV AC voltage Figure Pin Assignment Voltage range 1 Protective conductor High voltage input voltage 60 i 2 Minus terminal of the supply voltage V DC to 250 V DC IL 3 3
193. tion 44 Release 6 0 07 2010 Entering the IP Parameters 2 6 System Configuration via DHCP Option Meaning 1 Subnet Mask 2 Time Offset 3 Router 4 Time server 12 Host Name 61 Client Identifier 66 TFTP Server Name 67 Bootfile Name Table 3 DHCP options which the device requests The advantage of using DHCP instead of BOOTP is that the DHCP server can restrict the validity of the configuration parameters Lease to a specific time period known as dynamic address allocation Before this period Lease Duration elapses the DHCP client can attempt to renew this lease Alternatively the client can negotiate a new lease The DHCP server then allocates a random free address To avoid this most DHCP servers provide the explicit configuration option of always assigning a specific client the same IP address based on a unique hardware ID known as static address allocation On delivery DHCP is activated As long as DHCP is activated the device attempts to obtain an IP address If it cannot find a DHCP server after restarting it will not have an IP address To activate deactivate DHCP see on page 48 Web based IP Configuration Note When using HiVision network management ensure that DHCP always allocates the original IP address to each device In the appendix you will find an example for the configuration of a BOOTP DHCP server see on page 190 Setting up a DHCP BOOTP Server Basic Configuration Releas
194. to which recipients of these Multicast packets are connected You can recognize IGMP Multicast addresses by the range in which the address lies MAC Multicast Address 01 00 5E 00 00 00 01 00 5E FF FF FF in mask form 01 00 5E 00 00 00 24 Class D IP Multicast address 224 0 0 0 239 255 255 255 in mask form 224 0 0 0 4 Basic Configuration 108 Release 6 0 07 2010 Network Load Control 8 2 Multicast Application 8 2 2 Example of a Multicast Application The cameras for monitoring machines normally transmit their images to monitors located in the machine room and to the control room In an IP transmission a camera sends its image data with a Multicast address via the network 1st floor 2nd floor Control room Figure 29 Example Video surveillance in machine rooms Basic Configuration Release 6 0 07 2010 109 Network Load Control 8 2 Multicast Application 8 2 3 Description of IGMP Snooping The Internet Group Management Protocol IGMP describes the distribution of Multicast information between routers and terminal devices on Layer 3 Routers with an active IGMP function periodically send queries to find out which IP Multicast group members are connected to the LAN Multicast group members reply with a Report message This Report message contains all the parameters required by the IGMP The router records the IP Multicast group address from the Report message in its routing table The result of this is that i
195. transmission devices uplink as frames for different VLANs are differentiated at these ports Terminal Port Port VLAN identifier PVID A 1 2 B 2 3 C 3 3 D 4 2 Uplink 5 1 Table 14 Ingress table for device on left Terminal Port Port VLAN identifier PVID Uplink 1 1 E 2 2 F 3 3 G 4 2 H 5 3 Table 15 Ingress table for device on right VLAN ID Port 1 2 3 4 1 2 U U 3 U U alc o Table 16 Egress table for device on left VLAN ID Port Table 17 Egress table for device on right Basic Configuration 144 Release 6 0 07 2010 Network Load Control 8 6 VLANs The communication relationships here are as follows terminal devices at ports 1 and 4 of the left device and terminal devices at ports 2 and 4 of the right device are members of VLAN 2 and can thus communicate with each other The behavior is the same for the terminal devices at ports 2 and 3 of the left device and the terminal devices at ports 3 and 5 of the right device These belong to VLAN 3 The terminal devices see their respective part of the network and cannot reach any other participant outside their VLAN Broadcast and Multicast data packets and Unicast packets with unknown unlearned target addresses as also only sent within a VLAN Here VLAN tagging IEEE 801 1Q is used within the VLAN with the ID 1 Uplink You can see this from the letters T in the egress table of the ports The configuration of the example is the same for the devi
196. trical equipment for explosive gas atmospheres part 15 Construction testing and marking of protection type n electrical apparatus Generic norm immunity in industrial environments Programmable logic controllers Code of Federal Regulations Ship Applications Classification and Construction Guidelines VIl 7 3 Part 1 Ed 2003 Safety for the installation of IT equipment Communications networks and systems in stations Switching GARP GMRP Spanning Tree Media access control MAC bridges includes IEEE 802 1p Priority and Dynamic Multicast Filtering GARP GMRP Tagging Virtual Bridged Local Area Networks VLAN Tagging GVRP Rapid Reconfiguration Ethernet Standard Environment and Testing Requirements for Communication Networking Devices in Electric Power Substations Electrical Equipment for Use in Class and Class II Div 2 and Class III Hazardous Classified Locations Korean Register of Shipping Table 21 List of norms and standards The device has a certification based on a specific standard only if the certification indicator appears on the housing However with the exception of Germanischer Lloyd ship certifications as well as RINA certifications are only included in the product information under www beldensolutions com Use shielded twisted pair cables to fulfill the more stringent EMC requirements for the particular certifications RS 20 22 30 32 40 Release 17 10 10 61 62 RS20 22 30 32 40 Rele
197. ts SNTP packets In Anycast send interval you specify the interval at which the device sends SNTP packets valid entries 1 s to 3 600 s on delivery 120 s With Disable Server at local time source the device disables the SNTP server function if the source of the time is local see Time dialog IP destination address Send SNTP packet to 0 0 0 0 Nobody Unicast address 0 0 0 1 223 255 255 254 Unicast address Multicast address 224 0 0 0 239 255 255 254 Multicast address especially 224 0 1 1 NTP address 255 255 255 255 Broadcast address Table 4 Destination address classes for SNTP packets 96 Basic Configuration Release 6 0 07 2010 Synchronizing the System Time in the 7 2 SNTP Network Operation SNTP Status Con off E Configuration SNTP Client Configuration SNTP Server Client Status On Server Status on oft External Server Address booo Anycast Destination Address ooo J Redundant Server Address ooo LaND pooo Server Request Interval s fo Anycast Send Interval s Accept SNTP Broadcasts Disable Server at local Time Source E Threshold for obtaining the UTC ms booo Disable Client after successfull Synchronization se ren Sre a Figure 26 SNTP Dialog Device 192 168 1 1 192 168 1 2 192 168 1 3 Operation On On On Server destination address 0 0 0 0 0 0 0 0 0 0 0 0 Server VLAN ID 1 1 1 Send interval 120 120 120 Client external server address 192 168 1 0 192 16
198. ts and 24 10 100 Mbit s ports RS30 2402 1 to 9 see fig 6 RS20 22 30 32 40 Release 17 10 10 25 RS30 240200ZZ D RS30 160200ZZ D Figure 9 Device variants with 4 uplink ports 1 to 6 see fig 6 7 MAC address field 8 port 3 port 4 ZZ FX SFP slot 100 Mbit s 9 IP address field 10 port 1 port 2 OO FX SX LX SFP slot 100 1000 Mbit s 26 RS30 080200ZZ D a A N gt RS20 22 30 32 40 Release 17 10 10 1 1 5 Number of ports and media for RS40 RS40 0009CCCCED RS40 0009CCCCTD Figure 10 Device variants with 9 1000 Mbit s ports RS40 0009 Aufkleber MAC Adresse 9 24v P1 _ ov OV 24V P2 2 Sta erer Stan iy a 5 IP ADDRESS RS40 0009CCCCSD 1 to 5 and 8 to 9 see fig 6 6 port 1 to port 4 combo ports CC FX SX LX SFP slot 100 or 1000 Mbit s alternatively T X RJ45 connections 10 100 1000 Mbit s 7 ports in compliance with 10 100 1000BASE T X RJ45 connections RS20 22 30 32 40 Release 17 10 10 27 1 2 Device variants with PoE optional 1 2 1 Number of ports and media for devices with PoE A HIRSCHMANN RS22 ez Ls pa P O Grau Stand by o ae 3 gt 6 RS22 1700MMM2 P Figure 11 RS22 device variants with PoE
199. ud Ring redundancy disabled Ethernet ports link status is not evaluated signal contact Optical 100 Mbit s ports 100 Mbit s full duplex All other ports autonegotiation Ring Manager disabled DIP switch RM and stand by ON Stand by coupling disabled DIP switch RM and stand by ON Port 4 control port port 3 coupling port for red Ring coupling Rapid Spanning Tree enabled USB interface The USB socket has an interface for the local connection of an AutoConfiguration Adapter ACA 21 USB It is used for saving loading the configuration data and diagnostic information and for loading the software Pin Function 1 VCC VBus 2 Data 3 Data 4 Ground GND Table 14 Pin assignment of the USB interface RS20 22 30 32 40 50 Release 17 10 10 V 24 interface external management The V 24 interface is an RJ11 socket At the V 24 connection a serial interface is provided for the local connection of an external management station VT 100 terminal or PC with corresponding terminal emulation or an AutoConfiguration Adapter ACA 11 This enables you to set up a connection to the Command Line Interface CLI and to the system monitor VT 100 terminal settings Speed 9 600 Baud Data 8 bit Stopbit 1 bit Handshake off Parity none The socket housing is electrically connected to the front panel of the device The V 24 interface is not electrically isolated from the supply voltage RJ11 DB9 RJ11 DB9
200. uration Protocol BootP DHCP None DHCP Client ID same as SNMP System Name PowerMICE 517A80 Network Configuration Protocol HiDiscovery Read Write Management VLAN ID G cad eee cdead ea Gadieee aneen 1 Management VLAN Priority cece e eee eee ee eee 7 Management IP DSCP Value ee eee ee ee eee 56 cs7 Web IG DS sae Seyi see seh Se gion Set en sarin a ev wen wt lav wpe et Gr cee wt lence Mencel a E a Enable JaAVaSClI PE Modes desa desa daaa a eles Se aioe eae Se ere es Enable Basic Configuration Release 6 0 07 2010 131 Network Load Control 8 5 Flow Control 8 5 Flow Control 8 5 1 Description of Flow Control Flow control is a mechanism which acts as an overload protection for the device During periods of heavy traffic it holds off additional traffic from the network The example see fig 36 shows a graphic illustration of how the flow control works Workstations 1 2 and 3 want to simultaneously transmit a large amount of data to Workstation 4 The combined bandwidth of Workstations 1 2 and 3 to the device is larger than the bandwidth of Workstation 4 to the device This leads to an overflow of the send queue of port 4 The funnel on the left symbolizes this status If the flow control function at ports 1 2 and 3 of the device is turned on the device reacts before the funnel overflows Ports 1 2 and 3 send a message to the connected devices that no data can be received at pres
201. very Results E L Select the Diagnostics Topology Discovery dialog Basic Configuration Release 6 0 07 2010 175 Operation Diagnosis 9 7 Topology Discovery This dialog allows you to switch on off the topology discovery function LLDP The topology table shows you the collected information for neighboring devices This information enables the network management station to map the structure of your network The option Show LLDP entries exclusively allows you to reduce the number of table entries In this case the topology table hides entries from devices without active LLDP support Configuration Operation On Off Neighbour Identifier Neighbour IP Address Neighbour Port Description c O07 ac 95 0 0 0 0 learned k learned by FDB Neighbour System Name 259 more detected Set Reload Show LLDP entries exclusively Help Figure 51 Topology discovery Basic Configuration 176 Release 6 0 07 2010 Operation Diagnosis 9 7 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 If devices with active topology discovery function and devices without active topology discovery function are connected to a port the topology table hides the devices without active topology discovery only devices without active topology discovery are connected to a port the table will contain one line for this port to represent al
202. voltage 158 Symbol 9 System Monitor 14 14 System Name 44 System name 44 System time 93 95 T TCP IP stack 201 Technical questions 217 Telnet 16 Time difference 90 Time management 98 Time zone 90 Topology 47 176 ToS 121 124 125 Traffic class 127 129 129 Basic Configuration Release 6 0 07 2010 Traffic classes 121 Training courses 217 Transmission reliability 154 Trap 154 157 Trap Destination Table 154 Trivial File Transfer Protocol 200 Type Field 122 Type of Service 124 t tftp 200 tftp update 69 trust dot1p 127 trust ip dscp 127 u untrusted 127 U Unicast 108 Universal Time Coordinated 92 Update 14 USB stick 63 User name 17 UTC 90 92 v V 24 16 16 Video 128 VLAN 122 127 135 VLAN ID device network settings 48 VLAN priority 129 VLAN Tag 122 VLAN tag 122 135 VolP 128 W Web based Interface 19 Web based interface 19 Web based management 20 Website 21 Winter time 90 Write access 20 215 Index Basic Configuration 216 Release 6 0 07 2010 Further Support D Further Support Technical Questions and Training Courses In the event of technical queries please contact your local Hirschmann distributor or Hirschmann office You can find the addresses of our distributors on the Internet www hirschmann ac com Our support line is also at your disposal Tel 49 1805 14 1538 Fax 49 7127 14 1551 Answers to Frequently Asked Questions can be found on the Hirschmann internet site www hirschma
203. ware In the case of a device becoming inoperative the ACA makes it possible to easily transfer the configuration data by means of a substitute device of the same type When you start the device it checks for an ACA If it finds an ACA with a valid password and valid software the device loads the configuration data from the ACA The password is valid if the password in the device matches the password in the ACA or the preset password is entered in the device To save the configuration data on the ACA see on page 57 Saving locally and on the ACA Basic Configuration Release 6 0 07 2010 37 Entering the IP Parameters 2 4 Loading the system configuration from the ACA Figure 12 Flow chart of loading configuration dats from the ACA 1 Device start up 2 ACA pluggea in 3 Password in device and ACA identical 3a Default password in device 4 Load configuration from ACA ACA LEDs flashing synchronously 4a Load configuration from local memory ACA LEDs flashing alternately 5 Configuration data loaded Basic Configuration 38 Release 6 0 07 2010 Entering the IP Parameters 2 5 System configuration via BOOTP 2 9 System configuration via BOOTP When it is started up via BOOTP bootstrap protocol a device receives its configuration data in accordance with the BOOTP process flow chart see fig 13 Note In its delivery state the device gets its configuration data from the DHCP server
204. wer supply is ready for operation Basic Configuration 206 Release 6 0 07 2010 General Information B 1 Management Information Base MIB The following abbreviations are used in the MIB Comm Group access rights con Configuration Descr Description Fan Fan ID Identifier Lwr Lower e g threshold value PS Power supply Pwr Power supply sys System Ul User interface Upr Upper e g threshold value ven Vendor manufacturer Hirschmann Definition of the syntax terms used Integer An integer in the range 2 2 1 IP Address XXX XXX XXX XXX xxx integer in the range 0 255 MAC Address 12 digit hexadecimal number in accordance with ISO IEC 8802 3 Object identifier X X X X e g 1 3 6 1 1 4 1 248 Octet string ASCII character string PSID Power supply identifier number of the power supply unit TimeTicks Stopwatch Elapsed time in seconds numerical value 100 Numerical value integer in range 0 232 1 Timeout Time value in hundredths of a second Time value integer in range 0 2321 Type field 4 digit hexadecimal number in accordance with ISO IEC 8802 3 Counter Integer 0 232 whose value is increased by 1 when certain events occur Basic Configuration Release 6 0 07 2010 207 General Information B 1 Management Information Base MIB 6 snmp V2 14 hmConfiguration 15 hmPlatform4 _ 17 dot1dBridge 26 snmpDot3MauMGT Figure 72 Tree structure of the Hirs
205. wn destination address are flooded by the device Data packets with known destination addresses are selectively transmitted by the device Note A reboot deletes the learned address entries L Select the Switching Global dialog L Enter the aging time for all dynamic entries in the range from 10 to 630 seconds unit 1 second default setting 30 In connection with the router redundancy select a time 2 30 seconds Basic Configuration Release 6 0 07 2010 105 Network Load Control 8 1 Direct Packet Distribution 8 1 4 Entering Static Addresses An important function of the device is the filter function It selects data packets according to defined patterns known as filters These patterns are assigned distribution rules This means that a data packet received by a device at a port is compared with the patterns If there is a pattern that matches the data packet a device then sends or blocks this data packet according to the distribution rules at the relevant ports The following are valid filter criteria Destination address Broadcast address Multicast address VLAN membership The individual filters are stored in the filter table Forwarding Database FDB It consists of 3 parts a static part and two dynamic parts The management administrator describes the static part of the filter table dotlqStaticTable During operation the device is capable of learning which of its ports receive data packets from which source add
206. x Basic Profile DNS NetBios Server Boot Other p Boot Server Next Server IP Address i Name 149 218 112 159 File switcht O3config dat Boot File Size in 512 byte blocks I Always use option 65 67 for Name and File I Altemate File if Vendor Class 1d is File Boot File Size in 512 byte blocks Root Path Substitutions in File and Root Path ZN host name ZA P address Abbrechen Dbemermeri Figure 59 Configuration file on the tftp server Basic Configuration 192 Release 6 0 07 2010 Setting up the Configuration A 1 Setting up a DHCP BOOTP Ser Environment ver L Add a profile for each device type If devices of the same type have different configurations then you add a profile for each configuration To complete the addition of the configuration profiles click OK Configuration profiles x Profile Type Default Client Profile Ps2 7103 Add Edit _Bemove Figure 60 Managing configuration profiles L To enter the static addresses click Static in the main window haneWIN DHCP Server 2 1 2 File Dptions Window Help Observed MAC addresses ld 2 4 iTFTP C New Listening on Port 67 static dynamic i Figure 61 Static address input L Click New Basic Configuration Release 6 0 07 2010 193 Setting up the Configuration A 1 Setting up a DHCP BOOTP Ser Environment ver rs hanewWIN DHCP
207. y Swap OS images The memory of the device provides space for two images of the software This gives you the ability to load a new version of the software without deleting the existing version O Select 1 to load the other software in the next booting process Copy image to backup O Select 2 to save a copy of the active software Basic Configuration 64 Release 6 0 07 2010 Loading Software Updates 4 1 Loading the Software manually from the ACA Test stored images in flash memory LI Select 3 to check whether the images of the software stored in the flash memory contain valid codes Test stored images in USB memory O Select 4 to check whether the images of the software stored in the ACA 21 USB contain valid codes Apply and store selection L Select 5 to confirm the software selection and to save it Cancel selection LI Select 6 to leave this dialog without making any changes 4 1 2 Starting the software This menu item Start Selected Operating System of the system monitor allows you to start the software selected 4 1 3 Performing a cold start This menu item End reset and reboot of the system monitor allows you to reset the hardware of the device and perform a restart Basic Configuration Release 6 0 07 2010 65 Loading Software Updates 4 2 Automatic software update by ACA 4 2 Automatic software update by ACA LI For a software update via the ACA first copy the new device software into the main directory of
208. zo the same way the first letter traveled from Romeo to Juliet 2 1 3 Classless Inter Domain Routing Class C with a maximum of 254 addresses was too small and class B with a maximum of 65534 addresses was too large for most users as they would never require so many addresses This resulted in ineffective usage of the class B addresses available Class D contains reserved multicast addresses Class E is reserved for experimental purposes A gateway not participating in these experiments ignores datagrams with these destination addresses Basic Configuration Release 6 0 07 2010 29 Entering the IP Parameters 2 1 IP Parameter Basics Since 1993 RFC 1519 has been using Classless Inter Domain Routing CIDR to provide a solution to get around these problems CIDR overcomes these class boundaries and supports classless address ranges With CIDR you enter the number of bits that designate the IP address range You represent the IP address range in binary form and count the mask bits that designate the netmask The netmask indicates the number of bits that are identical to the network part for all IP addresses in a given address range Example IP address decimal Network mask IP address hexadecimal decimal 149 218 112 1 255 255 255 128 10010101 11011010 01110000 00000001 149 218 112 127 10010101 11011010 01110000 01111111 L 25 mask bits CIDR notation 149 218 112 0 25 i Mask bits The combination of a number of class
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