OPTICAL SYSTEMS DESIGN 1 TECHNICAL SUMMARY BRIEF DESCRIPTION 1.1.1 OVERVIEW The OSD2139 is an unmanaged 2-port media converter supplied in standaline module format with 2 duplex data channels and 2 duplex contact closure channels. It has one 10/100/1000Base-T RJ45 copper port and one SFP port which can be specified by the user for 100Base-Fx/1000Base-Lx/Sx fiber mode or as 10/100/1000Base-T RJ45 copper.
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OPTICAL SYSTEMS DESIGN OSD2139 CONFIGURATION 1.2.1 OSD2139 UNIT FIGURE 1: OSD2139 UNIT 1.2.2 TYPICAL CONFIGURATION Figure 2 below indicates a possible set-up for an OSD2139 system. FIGURE 2: OSD2139 TYPICAL POINT-POINT CONFIGURATION DOC ID: 10118201 PAGE 5 OSD2139 OPERATOR MANUAL...
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 Connector RJ45 for fixed copper ports (Ports 1 and 2) and for copper SFP module 10, 100, 1000Mbps with energy detect, auto negotiate, auto MDIX...
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OPTICAL SYSTEMS DESIGN OSD2139 FRONT AND REAR PANELS There is one fixed RJ45 copper port for 10/100/1000Base-T and one SFP port, a micro USB programming port and an 8-way DIP-switch on the front panel. The rear panel has a female DB15 connector for the two data channels and two contact closure channels, a mini USB as a console port and a 2-way terminal block power connector.
OPTICAL SYSTEMS DESIGN 2 INSTALLATION AND OPERATION INTRODUCTION This section outlines the methods required to install and operate the OSD2139 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.
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OPTICAL SYSTEMS DESIGN 2.2.2 OSD2139 DRAWINGS AND DIMENSIONS The OSD2139 standalone module is designed to be mounted on an even surface and to be secured by means of M4 or smaller screws. DETAIL A Ø8.5 R2.1 R2.1 138.4 FIGURE 4: OSD2139 MOUNTING DIMENSIONS...
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OPTICAL SYSTEMS DESIGN 2.2.3 POWER SUPPLY CONNECTIONS The OSD2139 module requires external 8 to 35V @ 8VA. Power should be connected to the power socket located at the back of the case as indicated in Table 2. TABLE 2: DC POWER CONNECTION...
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OPTICAL SYSTEMS DESIGN 2.2.5 CONTACT CLOSURE I/O The OSD2139 has 2 duplex contact closure channels located on the rear panel via a 15-way DB15 connector. The contact closure inputs (Ch1 Pin2: Ch2 Pin10) is pulled high by an internal 10K resistor.
OPTICAL SYSTEMS DESIGN OSD2139 OSD2139 Ch1: Pin12 Ch2: Pin14 External Ch 1:Pin2 Switch Ch2: Pin10 Ch1: Pin5 Ch2: Pin8 OSD2139 INPUT OSD2139 OUTPUT FIGURE 8: CONTACT CLOSURE INPUT AND OUTPUT 2.2.6 MICRO USB CONNECTOR All OSD2139 units are shipped with the latest firmware already installed. The Micro USB port located on the front panel is used by the manufacturer for uploading firmware and is not used by the end user.
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OPTICAL SYSTEMS DESIGN 2.2.8 PORT ALLOCATION AND LED INDICATORS Speed / Status Link / Act Power Link/100/1000 FIGURE 11: PORT/LED TABLE 4: LED FUNCTION LED Colour Function Amber Blinking Green Port 1 Fiber Port 1 Fiber Link ...
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OPTICAL SYSTEMS DESIGN 2.2.9 CONTROLS The OSD2139 has an 8-way DIP switch on the front panel to control a number of functions. Table 5 outlines the function of each switch. Fiber Speed 100/1000 RS422/485 2-Wire/4-Wire Data Speed Setting 1 Data Speed Setting 2...
OPTICAL SYSTEMS DESIGN 2.2.10 FITTING SFP CONNECTORS Care should be taken when inserting/removing the SFP connectors from SFP port 3,4 and 5 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.
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OPTICAL SYSTEMS DESIGN OSD2139 CONNECTIONS When using the OSD2139 for the first time, check that the unit is in good condition with no visible damage. Connect the unit to an appropriate power source and check that the indicators illuminate accordingly on power up (see Table 4).
OPTICAL SYSTEMS DESIGN 3 MAINTENANCE INTRODUCTION The following section outlines the fault-finding procedure for the OSD2139 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...
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.