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Optical Systems Design OSD2258 Series Operator's Manual

10-port redundant ring gigabit ethernet switch
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OPERATOR MANUAL
OSD2258 SERIES
10-PORT REDUNDANT RING
GIGABIT ETHERNET SWITCH

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Summary of Contents for Optical Systems Design OSD2258 Series

  • Page 1 OPERATOR MANUAL OSD2258 SERIES 10-PORT REDUNDANT RING GIGABIT ETHERNET SWITCH...
  • Page 3 OPTICAL SYSTEMS DESIGN INDEX 1 TECHNICAL SUMMARY ......................5 BRIEF DESCRIPTION ......................5 1.1.1 OVERVIEW............................. 5 1.1.2 APPLICATIONS............................6 1.1.3 FEATURES AND BENEFITS ......................... 6 TECHNICAL SPECIFICATIONS ................... 7 PORT ALLOCATION ......................8 INSTALLATION AND OPERATION ................... 10 INTRODUCTION ........................10 INSTALLATION ........................
  • Page 4 OPTICAL SYSTEMS DESIGN FIGURE 14: FITTING/REMOVING SFP CONNECTORS ..............18 FIGURE 15: REDUNDANT RING CONFIGURATION ..............19 FIGURE 16: REDUNDANT RING CONNECTION ................20 FIGURE 17: BUS CONNECTION ......................20 FIGURE 18: MINI USB CONNECTOR ....................21 FIGURE 19: CONSOLE PORT ......................21 FIGURE 20: SERIAL PORT SETTINGS ....................

  • Page 5: Technical Summary

    OPTICAL SYSTEMS DESIGN 1 TECHNICAL SUMMARY BRIEF DESCRIPTION 1.1.1 OVERVIEW The OSD2258 is a 10-port industrial switch with redundant ring Gigabit Ethernet providing simple network management with real-time monitoring. It has eight 10/100/1000Base-T RJ45 copper ports and two SFP ports for ring/bus configuration.

  • Page 6: Features And Benefits

    OPTICAL SYSTEMS DESIGN 1.1.2 APPLICATIONS ▲ Any network utilising a mix of copper ▲ Networks using Power over Ethernet and fiber devices such as cameras, intercoms, access control, telephones, etc. ▲ Industrial IP communications ▲ Self-healing Gigabit Ethernet backbone networks 1.1.3...

  • Page 7: Technical Specifications

    OPTICAL SYSTEMS DESIGN TECHNICAL SPECIFICATIONS TABLE 1: TECHNICAL SPECIFICATIONS SPECIFICATION PERFORMANCE IEEE802.3i/802.3u/802.3ab, 10/100/1000Base-T Ethernet Electrical Data Interface Electrical Data Rate 10, 100, 1000Mbps with energy detect, auto negotiate, auto MDIX 10KB Jumbo Frame Support IEEE802.3z 1000Base-Lx/Sx Optical Data Interface Optical Data Rate...

  • Page 8: Port Allocation

    OPTICAL SYSTEMS DESIGN PORT ALLOCATION Front Panel: There are eight fixed copper ports for 10/100/1000Base-T and two SFP ports. Top Panel: The top panel consists of a 4-way 5.08mm terminal block power connector and a 4-way 3.5mm terminal block alarm connector.
  • Page 9 OPTICAL SYSTEMS DESIGN Dual Power Power Alarm Redundant 1 LED 2 LED Output Power Input (1&2) FIGURE 3: TOP PANEL 8-Way Mini USB CLI USB Configuration Programming Console Switches Port Port FIGURE 4: BOTTOM PANEL DOC ID: 10119701 PAGE 9...

  • Page 10: Installation

    OPTICAL SYSTEMS DESIGN 2 INSTALLATION AND OPERATION INTRODUCTION This section outlines the methods required to install and operate the OSD2258 successfully. It should be studied carefully if damage to the equipment or poor results are to be avoided. This equipment has been fully tested prior to dispatch and is ready for immediate operation. However it is advisable to check for external transportation damage before operation.

  • Page 11: Drawings And Dimensions

    OPTICAL SYSTEMS DESIGN 2.2.2 DRAWINGS AND DIMENSIONS The OSD2258 is designed to be wall mounted onto a DIN-Rail (35mm top hat) fixture or by using 4 x M4 captivated screws (DIN Rail mount requires removal and flanges repositioned – see below). The unit dimensions (excluding connectors, SFPs, etc) is shown in Figure 5 below.

  • Page 12: Power Supply Connections

    OPTICAL SYSTEMS DESIGN 2.2.3 LOCATION As with any electrical devices, the OSD2258 should be placed where it will not be subjected to extreme temperatures, humidity, or electromagnetic interference. Specifically, the site selected should meet the following requirements: • The ambient temperature should be between -40°C to 75°C.

  • Page 13: Alarm Connection

    OPTICAL SYSTEMS DESIGN 2.2.5 ALARM CONNECTION The OSD2258 has two monitoring alarm outputs: 1) Ring to Bus Alarm and 2) Temperature Alarm. The alarm connections and conditions for alarm outputs are as set out in Table 3. There are four pins on the 3.5mm terminal block used alarm output.

  • Page 14: Usb Connector

    OPTICAL SYSTEMS DESIGN 2.2.6 USB CONNECTOR The OSD2258 has a USB – Type B connector located on the bottom of the unit that is used for Command Line Interface (CLI) from the PC to the OSD2258 via the PC’s USB connector. See section 2.6 for further CLI information.

  • Page 15: Led Indicators

    OPTICAL SYSTEMS DESIGN 2.2.7 LED INDICATORS FIGURE 11: PORT/LED DOC ID: 10119701 PAGE 15 OSD2258 OPERATOR MANUAL...
  • Page 16 OPTICAL SYSTEMS DESIGN TABLE 4: LED FUNCTION Function Unit is Off Power Green Unit is Powered On Non-Ring Mode (SW6 On) Green Redundant Ring Ring Amber Green/Amber Initializing 10Mb or No Link Link (speed) Copper Port Blink Amber 100Mb Amber...

  • Page 17: Switch Position

    OPTICAL SYSTEMS DESIGN TABLE 5: 8-WAY DIP SWITCH SETTINGS SWITCH DESCRIPTION FUNCTION SWITCH POSITION NUMBER Enable WebGUI GUI Mode Disable WebGUI Off* Not Used Off* Not Used Off* Not Used Off* Not Used Off* Ring Mode Disabled Ring/Non-Ring Ring Mode Enabled...

  • Page 18: Fitting Sfp Connectors

    OPTICAL SYSTEMS DESIGN 2.2.9 FITTING SFP CONNECTORS Care should be taken when inserting/removing the SFP connectors from SFP port 9 and 10 as SFP modules are Electrostatic (ES) sensitive and Electrostatic Discharge (ESD) precautions should be taken when installing. Ensure that the SFP is fully engaged and latched into position.

  • Page 19: Operation

    OPTICAL SYSTEMS DESIGN OPERATION When using the OSD2258 for the first time, check that the unit is in good condition with no visible damage. Upon power up check that the indicators illuminate accordingly on power up (see Table 4). 2.3.1 CONNECTIONS For RJ45 connection use Category 5 (CAT5) or higher.
  • Page 20 OPTICAL SYSTEMS DESIGN To connect the OSD2258 in a redundant ring configuration ports 9 and 10 must be used together with fiber SFPs. The non-ring ports (ports 1 to 8) should be used to connect to your Ethernet devices (eg.

  • Page 21: Mini Usb Port

    OPTICAL SYSTEMS DESIGN MINI USB PORT The Mini USB Port is currently not used. This port has no function for end user. Mini USB Port FIGURE 18: MINI USB CONNECTOR TYPE-B USB PORT The console port is a Type-B USB connector that is used to connect the OSD2258 to a PC for Command Line Interface (CLI) communication.

  • Page 22: Command Line Interface

    OPTICAL SYSTEMS DESIGN COMMAND LINE INTERFACE The Command Line Interface (CLI) is a useful tool for checking link status and debugging link connections. To enable the use of CLI the OSD2258 must be connected to a PC with a serial port and an appropriate cable as specified in section 2.2.6.

  • Page 23: Command Line Functions

    OPTICAL SYSTEMS DESIGN 2.6.2 COMMAND LINE FUNCTIONS There are a number of command line functions that enables the user to obtain running information of a single OSD2258 unit or the complete topology of the ring/bus network. This section explains the command lines and its functions.

  • Page 24: Version Check

    OPTICAL SYSTEMS DESIGN VERSION CHECK - <vc> FIGURE 21: VERSION CHECK Displays a number of quick reference information about the product. Software Version Number Software ID Number DOC ID: 10119701 PAGE 24 OSD2258 OPERATOR MANUAL...

  • Page 25: Default Setting

    OPTICAL SYSTEMS DESIGN DEFAULT SETTING - <ds> FIGURE 22: DEFAULT SETTING Resets the OSD2258 to its default factory setting. A prompt question will appear “Do you want to Reset Configuration [y/n]? n – Exits the default configuration setting and returns to the home prompt.
  • Page 26 OPTICAL SYSTEMS DESIGN IP CONFIGURATION - <ipconfig> FIGURE 23: IP CONFIGURATION Displays the current IP address, Net mask and Gateway settings. To make changes to the IP address, Net mask and Gateway, at the prompt enter the new details in the following format;...
  • Page 27 OPTICAL SYSTEMS DESIGN TOPOLOGY CHECK - <tc> Command Line FIGURE 24: TOPOLOGY CHECK In this case, only one OSD2258 is connected to the USB cable. The display indicates the following; No: 1 – Number of units connected on the ring/bus (in this case only one unit) MAC_ADDRESS: Displays all the MAC addresses of the units connected on the ring/bus TOPOLOGY: Displaying type of connection (in this case “Init”...
  • Page 28 OPTICAL SYSTEMS DESIGN FIGURE 25: TOPOLOGY CHECK No: 4 – Four units connected MAC_ADDRESS:– Displaying all the MAC addresses of the units connected on the ring/bus TOPOLOGY: Displaying type of connection (In this case a Ring connection is established) NODE_ROLE: MASTER – Displays if the unit is either the Master or Slave on the ring/bus. Master is determined by the lowest MAC address RING_P0: Indicates the function of port 3 and its relation to the ring/bus.
  • Page 29 OPTICAL SYSTEMS DESIGN NODE CHECK - <nc> Command Line FIGURE 26: NODE CHECK Node check obtains the running status of the node for the specific MAC address requested within the Ring/Bus. Correct entry format is as follows (MAC address specified below is an example);...
  • Page 30 OPTICAL SYSTEMS DESIGN LOCAL NODE CHECK - <lnc> Command Line FIGURE 27: LOCAL NODE CHECK This command line displays the running status of the local node that the USB cable is plugged into. The information provided is the MAC address, Topology, Node Role, Port Role and Float Backup status.
  • Page 31 OPTICAL SYSTEMS DESIGN FLOAT BACKUP ENABLE <fbe> FIGURE 28: FLOAT BACKUP ENABLED 1 No: 1 – Lists number of units connected (in this case 1) MAC_ADDRESS:– Displaying all the MAC addresses of the units connected on the ring/bus FLOAT_BACKUP: Displays all the units connected to the ring/bus having Float Backup enabled.
  • Page 32 OPTICAL SYSTEMS DESIGN Active Branch Back-up Branch FIGURE 30: FLOAT BACKUP ENABLED 2 When the float backup is in enabled mode, if the broken or disconnected branch is re-established, the backup branch will now be the last broken/disconnected branch as shown in Figure 31.
  • Page 33 OPTICAL SYSTEMS DESIGN FLOAT BACKUP DISABLE - <fbd> FIGURE 32: FLOAT BACKUP DISABLED 1 No: 4 – Lists number of units connected (in this case 1,2,3,4) MAC_ADDRESS:– Displaying all the MAC addresses of the units connected on the ring/bus FLOAT_BACKUP: Displays all the units connected to the ring/bus having Float Backup disabled.
  • Page 34 OPTICAL SYSTEMS DESIGN If the link between node 1 and 3 is broken (see Figure 33), node 1 will communicate with node 3 via node 2 and node 4. Active Branch Back-up Branch FIGURE 33: FLOAT BACKUP DISABLED 2 When the float backup is in disabled mode, if the broken or disconnected branch is re-established, the...
  • Page 35 OPTICAL SYSTEMS DESIGN NODE IP SET - <node_ip_set> FIGURE 35: NODE IP SET This command line enables the user to setup the IP of the node with the given MAC address. Correct entry format is as follows (MAC, IP, mask and gateway address specified below is an example);...
  • Page 36 OPTICAL SYSTEMS DESIGN WEB GUI The OSD2258 provides a web-based browser interface for configuring and monitoring the unit. This interface allows you to access the switch using any preferred web browser. This chapter describes how to configure the switch using its web-based browser interface.

  • Page 37: Logging On To The Switch

    OPTICAL SYSTEMS DESIGN 2.7.1 LOGGING ON TO THE SWITCH IP A WITCH DDRESS In your web browser, specify the IP address of the switch. Default IP address is 192.168.0.99. Note: Access to this unit is unrestricted. Upon connecting to the OSD2258, the home screen will display some useful information.
  • Page 38 OPTICAL SYSTEMS DESIGN 2.7.2 GUI MENU The user has access to Configure, Monitor or Maintain the OSD2258. Each section will be explained within this manual. DOC ID: 10119701 PAGE 38 OSD2258 OPERATOR MANUAL...
  • Page 39 OPTICAL SYSTEMS DESIGN ONFIGURATION YSTEM IP A DDRESS Configured: The IP address can be changed by modifying this text box. Current: Displays the current saved IP address UBNET Configured: The Subnet Mask can be changed by modifying this text box.
  • Page 40 OPTICAL SYSTEMS DESIGN ONFIGURATION Allows the user to set the date in the configured window. Also displays the current setting and format expected entry Allows the user to set the time in the configured window. Also displays the current setting and format expected entry...
  • Page 41 OPTICAL SYSTEMS DESIGN ONFIGURATION Indicates the ID number ODULE Allows the user to set the Log Settings for System. EVEL Allows the user to set the level of the Log monitoring displayed • Disable: Disables Log entries Info: Displays the Log Information for the module •...
  • Page 42 OPTICAL SYSTEMS DESIGN ONITOR Monitors each port activity listed 1-10. /SFP OPPER Indicates the port connection: Either Copper or SFP Switch Port: Indicates the role of the port Ring Port: Indicates the role of the port Up: Connection established Down: No Connection detected PEED Indicates the port connection speed in Mbps.
  • Page 43 OPTICAL SYSTEMS DESIGN ONITOR OPOLOGY Indicates number of units connected to the ring/bus MAC A DDRESS Lists the MAC address of the individual units connected on the ring/bus OPOLOGY Indicates type of connection of the system • Init: Only single unit connected •...
  • Page 44 OPTICAL SYSTEMS DESIGN AINTENANCE PLOAD Use this section to upload OSD released update software. Buttons : Browse file location : Upload software AINTENANCE YSTEM EBOOT Use this section to reboot the unit Buttons : Reboots the unit DOC ID: 10119701...

  • Page 45: External Inspection

    OPTICAL SYSTEMS DESIGN 3 MAINTENANCE INTRODUCTION The following section outlines the fault-finding procedure for the OSD2258 modems. Please take note of the following: ▲ Personnel without appropriate training should not attempt any maintenance except that outlined below. ▲ If further maintenance is attempted you are warned that every care should be taken to ensure that...

  • Page 46: Warranty Period

    For warranty period, please contact your local OSD distributor. REPAIRS Optical Systems Design reserves the right to repair or replace faulty modules/units. Please obtain a “Return Material Authorisation” (RMA) form and number before returning goods. Goods must be returned in adequate packing material to Optical Systems Design, Warriewood or its nominated authorised representative, for all repairs.
  • Page 47 OPTICAL SYSTEMS DESIGN DOC ID: 10119701 PAGE 47 OSD2258 OPERATOR MANUAL...
  • Page 48 OPTIC L Optical Systems Design Pty. Ltd. 7/1 Vuko Pl. Warriewood 2102 SYSTEMS P.O. Box 891 Mona Vale N.S.W. Australia 2103 Telephone: +61 2 9913 8540 Facsimile: +61 2 9913 8735 DESIGN Email: sales@osd.com.au Web Site: www.osd.com.au PTY LTD A.B.N. 83 003 020 504...

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