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Summary of Contents for Fiberplex FOI-5402
- Page 1 USER MANUAL E1 Fiber Transceiver FOI‐5402 / TD‐5402 ...
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- Page 3 Installation Site Install the unit in a place where the following conditions are met: The temperature and the relative humidity of the operating environment must be within the specified limits during operation of the unit. Values specified are applicable to the air inlets of the unit. Condensation may not be present during operation. If the unit is installed in a location subject to large variations of ambient temperature (e.g. in an OB‐van), appropriate precautions must be taken. Unobstructed airflow is essential for proper operation. Ventilation openings of the unit are a functional part of the design and must not be obstructed in any way during operation (e.g. ‐ by objects placed upon them, placement of the unit on a soft surface, or improper installation of the unit within a rack or piece of furniture). The unit must not be unduly exposed to external heat sources (direct sunlight, spot lights). Ambient Temperature Units and systems by FiberPlex are generally designed for an ambient temperature range (i.e. temperature of the incoming air) of 5 °C to 40 °C (41 °F to 104 °F). When rack mounting the units, the following facts must be considered: The permissible ambient temperature range for operation of the semiconductor components is 0 °C to +70 °C (32 °F to 158 °F) (commercial temperature range for operation). The airflow through the installation must allow exhaust air to remain cooler than 70 °C (158 °F) at all times. Average temperature increase of the cooling air shall be about 20 °C (68 °F), allowing for an additional maximum 10 °C increase at the hottest components. If the cooling function of the installation must be monitored (e.g. for fan failure or illumination with spot lamps), the exhaust air temperature must be measured directly above the modules at several places within the enclosure. Grounding and Power Supply Grounding of units with mains supply (Class I equipment) is performed via the protective earth (PE) conductor integrated in three‐pin Phoenix™ connector. Units with battery operation (< 60 V, Class III equipment) must be earthed separately. Grounding the unit is one of the measures for protection against electrical shock hazard (dangerous body currents). Hazardous voltage may not only be caused by defective power supply insulation, but may also be introduced by the connected audio or control cables. This equipment may require the use of a different line cord, attachment plug, or both, depending on the available power source at installation. If the attachment plug needs to be changed, refer servicing to qualified personnel. ...
- Page 4 Warranty, Service and Terms and Conditions of Sale For information about Warranty or Service information, please see our published ‘Terms and Conditions of Sale’. This document is available on fiberplex.com or can be obtained by requesting it from clients@fiberplex.com or calling 301.604.0100. Disposal Disposal of Packing Materials The packing materials have been selected with environmental and disposal issues in mind. All packing material can be recycled. Recycling packing saves raw materials and reduces the volume of waste. If you need to dispose of the transport packing materials, recycling is encouraged. Disposal of Used Equipment Used equipment contains valuable raw materials as well as substances that must be disposed of professionally. Please dispose of used equipment via an authorized specialist dealer or via the public waste disposal system, ensuring any material that can be recycled has been. Please take care that your used equipment cannot be abused. After having disconnected your used equipment from the mains supply, make sure that the mains connector and the mains cable are made useless. Disclaimer The information in this document has been carefully checked and is believed to be accurate at the time of publication. However, no liability is assumed by FiberPlex for inaccuracies, errors, or omissions, nor for loss or damage resulting either directly or indirectly from use of the information contained herein. ...
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Page 5: Getting Started
Introduction The FOI‐5402and TD‐5402 provide complete electrical isolation for E1 communications. There is no need to reconfigure your devices; simply plug the device at each end of your E1 line into one of these modules, and enjoy a secure, stable, and electrically isolated connection. Key Features Data Rate: 2.048 Mbps Supports Euro ISDN PRI (Primary Rate Interface) services, also known as PRA (Primary Rate Access) 30B+D data passes transparently Theory of Operation The FOI‐5402 provides complete electrical isolation for E1 communications. It is functionally similar to the obsolete FiberPlex product, the FOI‐4048, the physical difference being that the electrical data connection is made through a RJ‐45 connector instead of the DA‐15 connector on the FOI‐4048. The FOI‐5402 is NOT backward compatible with the FOI‐4048. The FOI unit can be used in areas of high electrical noise or in and out of RF shielded enclosures. The fiber optic cable is not susceptible to interference caused by impulse noise, crosstalk, or EMI. Privacy of communications is also enhanced because the fiber optic cable does not radiate any emissions. In addition, fiber optic cable offers much longer transmission distances than copper wiring. Traditional E1 cabling is limited to a maximum distance of 4800ft (1.46km), but multimode optics on the unit can extend the distance to 2km, while singlemode optics can further extend the distance to 20km. A typical link consists of two FOI‐5402, one at each end of the network, with a duplex fiber optic cable between them. Differences between FOI‐5402 and TD‐5402 Functionally, the FOI‐5402 and TD‐5402 are identical. The only differences are the packaging and power supply compatibility. The FOI‐5402 is part of the FOI line of products designed for ruggedized military applications. It is housed in a RF‐shielded can enclosure. For standalone applications it can be powered by adding a PSQ‐4909 AC supply or a PSQ‐4920 DC power supply (not included). Optionally, up to 8 FOI units can be mounted on CMA chassis adapters and installed in an RMC‐3101 or RMC‐2101 rack mount chassis, which provide redundant power to the units through a common backplane connection. The TD‐5402 is housed in the commercial ‘Throw Down’ packaging. This version is designed to be a workhorse unit in various commercial and industrial environments. It is powered either by a 9VDC wall adapter (included) or via bussed power supplied through an integrated three‐pin Phoenix™ connector. Up to six TD‐5402 units can be installed in the optional 1U TDR‐01 rack shelf. Getting Started Initial Inspection Immediately upon receipt, inspect the shipping container for damage. The container should be retained until the shipment has been checked for completeness and the equipment has been checked mechanically and electrically. If the shipment is incomplete, if there is mechanical damage, or if the unit fails to operate notify FiberPlex and make the shipping materials available for the carrier's inspection. ... - Page 6 Front Indicators/Connections Figure 1 TD‐5402 (left), FOI‐5402 (middle), and FOI‐5402 with ST connectors (Right) Front Face RJ‐45 Port – Used to connect your copper E1 line to the TD/FOI‐5402. This port accepts a standard RJ‐45 male connector. Pinout PIN Signal 1 TIP 2 RING 3 ‐ 4 TIP1 5 RING1 6 ‐ 7 ‐ 8 ‐ SFP Port – An SFP optical transceiver module installed in this port when ordered with the LC optic option. A pair of fiber optic cables connects to these to link two TD/FOI‐5402s. ST Optical Connectors –ST optical connectors in place of the SFP port when ordered with the ST optic option. Signal – LED which indicates the presence of a receive signal from the RJ‐45 port. Signal Indicator Off No receive signal detected from RJ‐45 port On Receive signal is present Sync – LED which indicates the presence of a receive signal from the fiber optic line. Power Indicator Off No receive signal detected over fiber optic line Flashing Receive signal is present, but not frame‐locked On (Solid) ...
- Page 7 Rear Indicators/Connections Figure 2 TD‐5402 (left) and FOI‐5402 (right) Rear Face Circular DC Power Connection – DC power entry for the unit. On the FOI‐5402 this is a Lemo connector designed to interface with either a PSQ power module or RMC chassis. On the TD‐5402 this is a standard DC connection for use with the included DC wall power supply. Phoenix CD Power Connection – Secondary power option for the TD‐5402. This is wired in direct parallel with the Circular connector and has the addition of a positive earth chassis ground connection. This can be used to power the unit on a client supplied power buss. ...
- Page 8 Power Requirements and Mounting Flexible mounting allows the FOI‐5402 to be chassis mounted or standalone configuration. Any combination of 8 FiberPlex FOI units can be mounted in a RMC‐3101 using CMA‐3002 chassis mount adapters. The RMC‐3101 can accommodate hot swapped redundant power. Alternately, the FOI‐5402 can be used in a standalone application when paired with a PSQ‐4909 for full range AC operation or the PSQ‐4920 for 12‐48VDC operation. Figure 3 FOI Unit with PSQ‐4909 (left) and with CMA‐3002 (right) Lower TD Unit Over Screw Heads, Figure 4 Installing a TD Module Using Mounting Slots #2 Wood Screw, 1/2" Long, #1 Phillips Drive...
- Page 9 Figure 5 TD Module Installation on a TDR‐01 Tray Figure 6 FOI unit Installed in an RMC‐3101 Chassis ...
- Page 10 Inserting and Removing SFP Modules Handling Warnings SFP Modules are static sensitive. To prevent damage from electrostatic discharge (ESD), it is recommended to attach an ESD preventative wrist strap to your wrist and to a bare metal surface when you install or remove an SFP Module. Disconnect all optical or copper cables from SFP Modules prior to installing or removing the SFP Module. Failure to do so could result in damage to the cable, cable connector or the SFP Module itself. Removing and inserting an SFP Module can shorten its useful life, so you should not remove and insert SFP Modules any more often than is absolutely necessary. Protect optical SFP modules by inserting clean dust covers into them after the cables are removed. Be sure to clean the optic surfaces of the fiber cables before you plug them back into the optical ports of another SFP module. Avoid getting dust and other contaminants into the optical ports of your SFP modules, because the optics will not work correctly when obstructed with dust. Identify the Latch Type of the SFP Module SFP Modules have various latching mechanisms to secure them into the SFP Cage of a device. FiberPlex fiber optic products can support a host of manufacturers and brands of SFP Modules, so the user may encounter any number of different latches. Some of these are described below. Bail Clasp Actuator Button The bail clasp SFP module has a clasp The actuator button SFP module includes a button that you that you use to remove or install the SFP push in order to remove the SFP module from a port. This module. button can either lift ‘Up’ or press ‘In’ to release the SFP Module depending on the manufacturer. Mylar Tab Slide Tab The Mylar tab SFP module has a tab that The slide tab SFP module has a tab underneath the front of the you pull to remove the module from a SFP module that you use to disengage the module from a port. port. ...
- Page 11 Inserting a SFP Module Attach an ESD‐preventative wrist or ankle strap, following its instructions for use. Disconnect and remove all interface cables from SFP Module. If the SFP Module has a Bail Clasp, close the Bail Clasp before inserting the SFP Module. With the gold finger connector on the bottom and the label on the top, line up the SFP Module with the empty cage and slide it in making sure that it is completely inserted and seated in the cage. Removing a SFP Module Attach an ESD‐ preventative wrist or ankle strap, following its instructions for use. Disconnect and remove all interface cables from SFP Module. Release the latching mechanism. Bail Clasp – Open the bail clasp on the SFP Module with your finger in a downward direction. Actuator Button – Gently press the actuator up (or in) while pulling the body of the SFP Module to release the SFP Module from the cage. Mylar Tab – Pull the tab gently in a straight outward motion until it Actuator Button disengages from the port. Make sure the tab is not twisted when pulling as it may become disconnected from the SFP Module. Slide Tab ‐ With your thumb, push the slide tab on the bottom front of the SFP module in the direction of the equipment to disengage the module from the line card port. If you pull on the SFP module without disengaging ...
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Page 12: Specifications
Specifications Figure 7 FOI‐5402 Dimensions Figure 8 TD‐5402 Dimensions ... -
Page 13: Other Considerations
ELECTRICAL SPECIFICATIONS Unit Power Requirement Voltage Range 7 9 32 VDC Supply Current ‐ 600 ‐ mA E1 Interface Data Rate ‐ 2.048 ‐ Mbps Line Encoding Transparent Interface Connector RJ‐45 Environmental Storage Temperature ‐40 ‐ 85 °C Operating Temperature 0 ‐ 50 °C OPTICAL SPECIFICATIONS Order Connector ... - Page 14 NOTES ...
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- Page 16 18040-412 Guilford Rd. • Annapolis Junction, MD 20701 fiberplex.com • clients@fiberplex.com • 301.604.0100 UM5402‐1708 ...
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