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TS5000ETH
User Manual
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MRV Communications TS5000XXX, TS5000, TS5000ETH, TS50004U1, TS5000V User Manual

...
Wireless Optical Communications
TS5000/XXX
(TS5000G/XYZ/V**, TS5000/XYZ/V**,
TS5000/ETH/V*, TS5000/4U1/V*)
Installation Manual
WIRELESS OPTICAL COMMUNICATIONS
Installation Manual
Document Number 4705000, Rev. 2.7
February 2008
© MRV Communications, Inc.
Web site: www. mrv.com
Table of Contents
STANDARDS
Standards Compliance ............................................................................i
FCC Notice ...............................................................................................i
CE Mark ...................................................................................................i
Other Standards .....................................................................................ii
MRVTM Laser Safety Certification........................................................ii
About this Installation Manual ............................................................iii
SAFETY REQUIREMENTS
Before Installing ....................................................................................iv
Before Powering On ..............................................................................iv
When Installing ......................................................................................iv
Servicing .................................................................................................. v
Introduction............................................................................................vi
MRV Communications, Inc. – Installation Manual
CHAPTER 1 - THE PRODUCT
Models.......................................................................................................1
General Description ................................................................................3
Front................................................................................................3
Back.................................................................................................4
A. TS5000/G Standard Model (w/o Fusion and with one power
supply................................................................................................... 5
B. TS5000/G-F (Standard Model including Fusion Option) ..............9
C. TS5000/155 (w/o Fusion and with one power supply)...................10
D. TS5000/155-F (Standard Model including Fusion option) ..........14
E. TS5000/ETH (Ethernet System)..................................................... 17
F. TS5000/4U1 (4E1 or 4T1 System)................................................... 19
Loop and Remote Loope Operation Mode..........................................21
Heating ...................................................................................................21
Monitoring & Management Options...................................................22
Management.................................................................................22
Dry contact ...................................................................................22
RSM............................................................................................... 22
Typical Connection................................................................................23
MRV Communications, Inc. – Installation Manual
CHAPTER 2 - SITE SURVEY
Line of Sight...........................................................................................24
Orientation............................................................................................. 24
Location & Range.................................................................................. 24
Mounting Environment & Stability.....................................................27
Transmitting through a Window.........................................................29
CHAPTER 3 - INFRASTRUCTURE
Power......................................................................................................30
Data/Signal Cabling ..............................................................................30
CHAPTER 4 - BENCH TEST
TS5000/G & TS5000/G-F......................................................................32
TS5000/155 & TS5000/155-F................................................................33
TS5000/ETH...........................................................................................34
TS5000/4U1............................................................................................34
Test configurations................................................................................35
Display and Results............................................................................... 37
SNMP Management Setting and Operation....................................... 39
CHAPTER 5 - INSTALLATION
Accessories .............................................................................................40
Mounting................................................................................................43
Accessories....................................................................................43
Attachment of the Transceiver...................................................43
Particular Figure Cases/Techniques.................................................... 45
CHAPTER 6 - AIMING PROCEDURE
Powering on the TereScope.................................................................. 46
Transceiver Alignment..........................................................................47
Coarse Alignment.........................................................................47
Fine Alignment.............................................................................47
Link Operating Test..............................................................................50
Installation Log......................................................................................50
Installation Completion ........................................................................51
CHAPTER 8 - MAINTENANCE
Periodic Visits........................................................................................ 53
MRV Communications, Inc. – Installation Manual
APPENDIX A. Product specifications AP PENDI X B. Digital Readout vs. Distance APPENDIX C. Unpacking Instructions AP PENDI X D. Tool Kit, Equipment and Materials AP PE NDI X E . TereScope Bench Test Procedure AP PENDI X F. Effect of wind on TereScope Devices APPENDIX G. FSO Chaining AP PE NDI X H . Installation Log AP PE NDI X I . Power Supply Replacement A P P E N D I X J . TS5000/155 AND TS4000/155 ENHANCEMENTS
MRV Communications, Inc. – Installation Manual
Standards
Standards Compliance
UL 1950; CSA 22.2 No 950; FCC Part 15 Class A; CE-89/336/EEC, 73/23/EEC
FCC Notice
WARNING: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. The user is cautioned that changes and modifications made to the equipment without approval of the manufacturer could void the user’s authority to operate this equipment
It is suggested that the user use only shielded and grounded cables when appropriate to ensure compliance with FCC Rules.
CE Mark
The CE mark symbolizes compliance with the EMC directive of the European Community. Such marking is indicative that the specified equipment meets or exceeds the following technical standards:
EN 55022 - Limits and Methods of Measurement of Radio Interference Characteristics of
Information Technology Equipment
EN 50081-1- Electromagnetic compatibility - of Radio Interference Characteristics of
Information Technology Equipment Generic Emission standard Part 1 – Residential commercial and light industry environment
EN 50082-1 - Electromagnetic compatibility -- Generic immunity standard Part 1:
Residential, commercial and light industry environment
EN61000-4-2 (previously IEC 1000-4-2) - Electromagnetic compatibility for industrial-
process measurement and control equipment Part 4: Section 2 - Electrostatic discharge requirements
EN61000-4-3 (previously IEC 1000-4-3) - Electromagnetic compatibility for industrial-
process measurement and control equipment Part 4: Section 3 - Radiated electromagnetic field requirements
EN61000-4-4 (previously IEC 1000-4-4) - Electromagnetic compatibility for industrial-
process measurement and control equipment Part 4: Section 4 - Electrical fast transient/burst requirements
EN61000-4-5 - Electromagnetic compatibility for industrial-process measurement and
control equipment Part 4: Section 5 – Surge Immunity requirements
EN61000-4-6 - Electromagnetic compatibility for industrial-process measurement and
control equipment Part 4: Section 6 – Immunity to conducted disturbances induces by radio frequency fields
EN61000-4-8- Electromagnetic compatibility for industrial-process measurement and
control equipment Part 4: Section 8– Power frequency magnetic field immunity requirements
EN61000-4-11 – Electromagnetic compatibility for industrial-process measurement and
control equipment Part 4: Section 11 – Voltage dips short interruptions and voltage variations immunity requirements
EN61000-3-2 – Harmonic standard
EN61000-3-3 – Voltage Fluctuation and Flicker standard
CISPR 22 - Radiated and Line-conducted Class A
EN 60950 - ITE Safety
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MRV Communications, Inc. – Installation Manual
Other Standards
1. CISPR 22: 1993 AS/NZS 3548: 1995, Class A, Joint Amendment No. 1: 1997, Joint Amendment No. 2: 1997
2. EN 60950+A1+A2+A3+A4+A11 ACA TS001-1997 AS/NZS 3260: 1993 A4: 1997
ITU G.703, G.704, G.706,G.736, G.737, G.738, G739, G740, G.775, G.823.
MRV Laser Safety Certification
The TereScope is designed, built, and tested to be eyesafe, even if the output beams are viewed directly, provided that no magnifying optics are used. This product is Class 1M according to the American National Standard for Safe Use of Lasers ANSI Z136.1-1993 provided that there is not a reasonable probability of accidental viewing with optics in the direct path of the beam where the TereScope is installed. This product is Class 1M according to the International Standard of the International Electro technical Commission IEC 60825-1, Amendment 2, January 2001 entitled “Safety of laser products.” The following explanatory label is applicable to these products:
LASER RADIATION
DO NOT VIEW DIRECTLY WITH OPTICAL INSTRUMENTS
(BINOCULARS OR TELESCOPES)
CLASS 1M LASER PRODUCT
This product complies with United States FDA performance standards for laser products except for deviations pursuant to Laser Notice No. 50 as published in June 2001, which allows for the use of the IEC 60825-1 classification standard. Under this standard, these products are Class 1M. A ‘Declaration of Conformity’, in accordance with the above standards, has been made and is on file at MRV.
Disclaimer
MRV reserves the right to modify the equipment at any time and in any way it sees fit in order to improve it.
MRV provides this document without any warranty of any kind either expressed or implied, including, but not limited to, the implied warranties of merchantability or fitness for a particular purpose.
Although much care has been taken in the preparation of this document, omissions and errors may still exist. Therefore, the customer is advised to exercise due discretion in the use of the contents of this document since the customer bears sole responsibility.
Trademarks
All trademarks are the property of their respective holders.
Copyright © 2007 by MRV
All rights reserved. No part of this document may be reproduced without the prior permission of MRV.
This document and the information contained herein are proprietary to MRV and are furnished to the recipient solely for use in operating, maintaining and repairing MRV
may not be utilized for any purpose except as stated herein, and may not be disclosed to third parties without written permission from MRV. MRV
specifications in order to improve reliability, function or design.
reserves the right to make changes to any technical
equipment. The information within
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MRV Communications, Inc. – Installation Manual
About this Installation Manual
Audience
This manual is intended for the user who wishes to install, operate, manage and troubleshoot TereScope5000.
Qualifications
Users of this guide are expected to have working knowledge of:
Electro-optical equipment
LAN equipment (Layer 2 and 3)
License to install equipment on buildings/elevated structures
License to work with power line (mains) voltages 110/230 Vac
Training
Installers are required to do a training course on MRV TereScopes that includes:
IR links (site survey, installation equipment, alignment, etc.)
Indoors and outdoors installation
On-the-job-training
Proficiency tests
Experience
Installers are required to have experience in coax cable TV home pass installation, PTT home pass installation, LAN installation, IR equipment installation, and home electrical wiring.
Authorization
When all the requirements specified above (namely, Qualifications, Training, and Experience) have been met, the installer must receive authorization from MRV certifying eligibility.
iii
Figure A: 3 terminal cord forks
MRV Communications, Inc. – Installation Manual
Safety Requirements
All requirements stipulated in the safety laws of the country of installation must be
abided by when installing the TereScopes.
Caution!
In addition, ensure that the requirements noted in this chapter are met in order to reduce risk of electrical shock and fire and to maintain proper installation.
Before Installing
Power: Ensure that all power to the TereScope is cut off. Specifically, disconnect all TereScope power cords from the power line (mains).
Inspection: Ensure by inspection that no part is damaged.
Before Powering On
Line Power: Ensure that the power from the line (mains) is as specified on
the TereScope.
Power Cord: The power cord of The TereScope must have the following
specifications: Flexible 3-conductor power cord approved by the cognizant safety organization of the country. The power cord must be Type HAR (harmonized), with individual conductor wire having cross-sectional area 0.75 sq. mm. min. The power cord terminations should be a suitably rated earthing-type plug at one end and 3 terminal cord forks for M3 screws (1 for each wire) at the other end. Both of the power cord terminations must carry the certification label of the cognizant safety organization of the country.
When Installing
Ensure, by visual inspection, that no part of the TereScope is damaged.
Avoid eye contact with the laser beam at all times.
Ensure that the system is installed in accordance with ANSI Z136.1
control measures (engineering, administrative, and procedural controls).
Ensure that the system is installed in accordance with applicable
building and installations codes.
Install the TereScope in a restricted location as defined in this manual
since it is a Class 1M FSOCS transmitter and receiver. A restricted location is a location where access to the transmission equipment and
exposed beam is restricted and not accessible to the general public or
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MRV Communications, Inc. – Installation Manual
casual passerby. Examples of restricted locations are: sides of buildings at sufficient heights, restricted rooftops, and telephone poles. This definition of a restricted location is in accordance with the proposed IEC 60825-I Part 12 requirements.
Avoid using controls, adjustments, or procedures other than those
specified herein as they may result in hazardous radiation exposure.
Avoid prolonged eye contact with the laser beam (maximum10 sec.).
CAUTION-CLASS 3B LASER RADIATION WHEN OPEN
AVOID EXPOSURE TO THE BEAM
Servicing
All servicing must be carried out only by qualified service personnel. Before servicing, ensure that all power to the TereScope is cut off!
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MRV Communications, Inc. – Installation Manual
Introduction
CAREFULLY READ THE ENTIRE MANUAL BEFORE INSTALLING
n InfraRed (IR) link allows connection without any cable between two distant sites. For that, two identical transceivers, each installed on one site
A
other through the air over an optical wavelength carrier, the IR.
and aligned one facing each other, provide a point-to-point connectivity. This configuration makes possible data transfer from one terminal to the
The installation of such a link can be summed up in 4 stages:
Site survey Installation of the infrastructure Mounting of the equipment Aiming procedure
Always use appropriate safety equipment and procedures when working with electrical equipment and when working on roofs.
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MRV Communications, Inc. – Installation Manual
The Product
Lift and hold the transceiver cautiously, taking care particularly not to damage the front Polycarbonate window
Models
Table 1: Models of the TS50001
.
Chapter
Models Part Number Description
TS5000/G TS5000G/XYZ/V**
Standard Model
TS5000G/M8C/V1S
TS5000/G-F TS5000G/XYZ/F**
Standard Model
TS5000G/M8C/F1S
TereScope5000/G, 8 inch receiver Free Space Optics 870m@30db/km and 3500m@3db/km (clear weather), Open Protocol 100-1250Mbps with clock recovery, visual alignment. XYZ coding: interface options: M8C, M8T, S3C, S5C (Standard model: TS5000G/M8C/V1S). RCMU-SNMP included (Remote Control and Management Unit), Removable interface, Removable Power supply, Redundant Power supply: Optional. **Power supply options: 1S, 2S, 13, 23, 24 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD-5000, JMP-8 and JITK
TereScope5000/G-F with buil-in Fusion, 8 inch receiver Free Space Optics 870m@30db/km and 3500m@3db/km (clear weather), Open Protocol 100­1250Mbps with clock recovery, visual alignment. XYZ coding: interface options: M8C, M8T, S3C, S5C (Standard model: TS5000G/M8C/F1S). RCMU-SNMP included (Remote Control and Management Unit), Removable interface, Removable Power supply, Redundant Power supply: Optional. **Power supply options: 1S, 2S, 13, 23, 24 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD-5000, JMP-8 and JITK
1
TereScope 5000
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MRV Communications, Inc. – Installation Manual
TS5000/155 TS5000/XYZ/V**
Standard Model
TS5000/M3C/V1S
TS5000/155-F TS5000/XYZ/F**
Standard Model
TS5000/M3C/F1S
TereScope5000/155, 8 inch receiver Free Space Optics 1185m@30db/km and 5400m@3db/km (clear weather), Open Protocol 1-155Mbps, Selectable Protocols 34­155Mbit/s, visual alignment. XYZ coding: interface options: M3C, M3T, S3C, S5C (Standard model: TS5000/M3C/V1S). RCMU-SNMP included (Remote Control and Management Unit), Removable interface, Removable Power supply, Redundant Power supply: Optional. **Power supply options: 1S, 2S, 13, 23, 24 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD-5000, JMP-8 and JITK.
TereScope5000/155-F with buit-in Fusion, 8 inch receiver Free Space Optics 1185m@30db/km and 5400m@3db/km (clear weather), Open Protocol 1-155Mbps, Selectable Protocols 34-155Mbit/s, visual alignment. XYZ coding: interface options: M3C, M3T, S3C, S5C (Standard model: TS5000/M3C/F1S). RCMU-SNMP included (Remote Control and Management Unit), Removable interface, Removable Power supply, Redundant Power supply: Optional. **Power supply options: 1S, 2S, 13, 23, 24 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD-5000, JMP-8 and JITK.
TS5000/ETH TS5000/ETH/V*
TS5000/4U1 TS5000/4U1/V*
TereScope5000/ETH, 8 inch receiver Free Space Optics 1400m@30db/km and 6700m@3db/km (clear weather), ETHERNET Link, 10 Mbit/s, (RJ45), visual alignment. RSM-SNMP included, Removable Power supply, Power supply S or 3 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD­5000, JMP-8 and JITK.
TereScope5000/4E1 or TereScope5000/4T1 Free Space
1400m@30db/km and 6700m@3db/km (clear weather), 4E1 Link, G.703/G.704, and Interface: 4 Universal connectors to be used with 75 Ohm (Coax) or 120 Ohm (STP), visual alignment. RSM-SNMP included, Removable Power supply, Power supply S or 3 (See below for power supply options explanation). Basic accessories kit supplied with the link: AD-5000, JMP-8 and JITK.
Using the Part Number for Ordering
To place an order for a TS5000 model having a specific configuration, use the
Part Number format shown in Table 1, noting the following:
In 155 Series the ‘155’ is omitted in the part number, the absence of "155" represents link operation speed in the range 1 to 155 Mbps. ‘G’ represents link operation speed in the range 100 to 1250 Mbps. ‘ETH’ represents 10 Mbps (Ethernet) operation speed. ‘X’ represents Optical Fiber Mode. Instead of X use one of the following:
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MRV Communications, Inc. – Installation Manual
M (for Multimode)
S (for Single Mode) ‘Y’ represents operating wavelength. Instead of Y use one of the following:
8 (for 850 nm)
3 (for 1310 nm)
5 (for 1550 nm) ‘Z’ represents connector type. Instead of Z use one of the following:
C (for SC)
T (for ST) ‘V’ represents yes or not with Fusion. Instead of V use one of the following:
V represents no built-in Fusion option.
F represents built-in Fusion option. Power Supply
: Each product base code ends with * or **. * means that the product has one power supply. **means that the product can have two power supplies: one main and the other one - for back-up. In the products description, there is a list of all compatible power supplies. When ordering, please specify the required power supply and make sure that it is in the above list. For example, if a TS5000/155 with one power supply, high voltage (100-240VAC) is required; TS5000/XYZ/V1S should be ordered. Similarly, in case of 2 power supplies low voltage (35-60VDC), the p/n will be TS5000/XYZ/V23. If the required product can have only one power supply, for example TS5000/ETH, high voltage, the p/n will be TS5000/ETH/VS. ‘S’ represents power supply type Instead of S use one of the following:
S (for input to the power supply in the range 100-240 VAC)
3 (for input to the power supply in the range 35-60 VDC) ‘U’ represents telephony protocol type. Instead of U use one of the following:
E (for E1)
T (for T1)
Front view Showing the receiver side, the transmitters and the telescope
Transmitter
CAUTION!
AVOID EXPOSURE – INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
General Description
1. Front
Each unit comprises a receiver, 3 transmitters and an interface on the rear panel for the connection to the peripheral equipment.
Transmitters
Telescope
Figure 1.1: Front View Schematic
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MRV Communications, Inc. – Installation Manual
2. Back
The TS5000 has a pluggable power supply. In the field, a failed power supply can be replaced within seconds without the need for performing any other changes to the TS5000. Appendix I gives the procedure for replacing the power supply.
All models of the TS5000 are SNMP manageable. SNMP monitoring can be performed using MRV’s MegaVision SNMP management server application.
TS5000/G and TS5000/155
There have been several additional improvements to the TS5000/G and TS5000/155 models:
An additional optional power supply, i.e. a standard model has one
modular power supply and a redundant power supply can be ordered or even added in the field. (fig 1.2a)
The interface of these models is modular as well. (Fig. 1.2b) A new SNMP Management card. See Appendix J: "TS5000 & TS4000
enhancements" for further info on the improvements to these models.
Figure 1.2a: Connecting the redundant Power supply
Figure 1.2b: Changing the Optical interface
4
A
V
p
N
ot in use
MRV Communications, Inc. – Installation Manual
A. TS5000/G Standard Model (w/o Fusion and with one power supply)
The TS5000/G can support various data rates and protocols within the 20Mbps -
1.5 Gbps range, for example Fast Ethernet, ATM, 622 Mbps, Fiber Channel, Gigabit Ethernet, etc. The TS5000/G has Clock Recovery for the entire operation range. There is no need to set the clock by means of DIP switches or other means. The TereScope automatically identifies and locks on to the clock frequency of the transferred data
LASERS STATUS
(BACK VIEW)
L 2 ONL 1 ON
L 3 ON
TELESCOPE
AIR RX
FLAG SYNC
1
10 10
DS 1
OPTICAL POWER
REMOTE MONITOR
DIP Switch Toggles 4, 7 and 9
ositions are
immaterial.
1
DS 2
ALIGNMENT LOOP FUSION HEATING SW MODE
POWER SUPPLYPOWER SUPPLY
DISCONNECT POWER SUPPLY
FROM MAINS
BEFORE REMOVAL FROM UNIT
POWERPOWER
USE COPPER CONDUCTORS ONLYUSE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-InchTORQUE VALUE 7 Lb-Inch
HIGH HIGH VOLT.
OLT.
L L
G G GGN N
+/~+/~
-/~-/~
LOW LOW VOLT.VOLT.
REDUNDANT
POWER SUPPLY
This slot can
house an additiona l
power supply
to be fed
from backup
voltage source.
This can be
independent
of the primary
voltage source for
maximum redundanc y.
For details:
Contact an authorized
MRV representative
or visit www.mrv.com
MANAGEMENT
Rx
Tx
3-6
1-2
Pluggable interface
1766240
INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
Tx Rx
TABLE FOR DS 2
Mode Select
Attenuation for Short Di stance Li nk
Fusion
Window Heater (if exist)
IP Address Setup
Control Mode
VOID EXPOSURE
F I B E R O P T I C
TX RX
Normal Alignment Local Loopback Remote Loopback Normal Attenuated Disable Enable Off On Default IP Software IP HW MODE SW MODE
FLAG
SYNC
OFF
ON
-
1,2
1 2
2
1
-
1,2
-
3
-
3
5
-
-
5
-
6
-
6
-
8
-
8
-
10
-
10
Pluggable Power Supply
CAUTION
DO NOT USE TELESCOPE
TO LIFT UNIT ! !
Telescope
PS1
PS2 HEATER ON
Slot for Redundant PS
Figure 1.3: TS5000/G Standard Model Panel Schematic
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MRV Communications, Inc. – Installation Manual
Back Panel Description
Table 2: TS5000/G Back Panel Controls, Interfaces, and Indicators
Power
Connectors
Power source Terminal Block (Main or UPS).
AC power supply (100 to 240 Vac) or DC power supply (35 to 60 Vdc)
Fiber optic
Remote Monitor Connection to an optional Remote Status Monitor
Management
Fiber Optic interface for connection to the peripheral equipment. The standard interface is MM 850nm SC connector; other interfaces are available upon request (refer to price list or data sheet). In model TS5000/G-F with the fusion option, there are two fiber optic interface ports for connection to the Fusion system; one primary and the other redundant.
(RSM) or to RSM-DC (for Dry Contact connection) (not included in the standard transceiver kit)
Connection to 10Base-T SNMP management interface. Pins 1,2: TX and 3,6 RX. Pins (4,5) and (7,8) of this connector can be used for dry contact purposes, for Airlink flag and F/O flag alarms respectively
Note:
Pins (4, 5) and (7, 8) of the management RJ45 connector can be used for dry contact
purposes, for Airlink flag and F/O flag alarms respectively.
Alignment Telescope
Power
Power Supply
Slot for Power Supply
For fine alignment.
Pluggable AC power supply (100 to 240 Vac) or DC power supply (35 to 60 Vdc)
This slot can house an additional power supply to be fed from backup voltage source. This can be independent of primary voltage source for maximum redundancy.
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MRV Communications, Inc. – Installation Manual
Selectors (DIP Switch DS1 Toggles)
-- shown on Figure 1.3and
1.4
Selectors (DIP Switch DS2 Toggles)
-- shown on Figure 1.3 and
1.4
Not in use Not in use
Mode Select (Toggles 1, 2)
Set the Operating Mode ALIGNMENT = Idle transmitted automatically NORMAL transmitted through the Airlink TX. Signal received via the Airlink RX is transmitted through the F/O TX. LOOPBACK directly returned through the F/O TX. REMOTE LOOP electrical TX and optical RX to the optical TX of the remote unit.
Attenuation for Short distance link (Toggle 3)
Turning off 1 TX when the DIP switch toggle is moved to ON. (The LED L1 will turn off also). Use this option for distances between 500 and 700m
Fusion (Toggle 5)
This switch toggle enables working with MRV’s Fusion system (Built-in fusion option or switch option). For additional information, see page 9. Switch toggle 5 OFF: Fusion not Active (Disabled) Switch toggle 5 ON: Fusion active (Enabled).
Window Heater (Optional) (Toggle 6)
Used only with the heating option (To be specified in the PO). Switch toggle 6 OFF: The heater is disabled Switch toggle 5 ON: The heater is enabled. The heating will start operating only if one of the following conditions is present: or the temperature is lower than 15 above 80%. There is a controller with a thermostat inside the TereScope, which controls the heating in accordance with the above conditions.
IP address set up (Toggle 8)
When the Switch toggle is on OFF position, the TereScope’s IP address is the default one (shown on the back panel label: 10.0.0.101). To set a new IP address, please refer to the “IP address setting procedure for TereScope management card” file in the Manuals CD. The new IP address is valid only after the TereScope is powered off and on.
Control Mode (Toggle 10)
When the Dip Switch toggle #10 is on OFF position, the TereScope is in the HARDWARE mode, i.e. the TereScope is controlled only by the TereScope itself by means of the switches on its back panel. When the Dip Switch toggle is on ON position, the TereScope is in the SOFTWARE mode i.e. the TereScope is controlled by the management Software and various functions can be activated by means of this management Software.
= Signal received via the F/O port is
= Data received by the F/O RX is
= Loops the electrical RX to the
o
C; or the humidity level in the air is
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MRV Communications, Inc. – Installation Manual
Indicators (7-segment display and LEDs)
Air RX Flag LED Green LED indicates data received by the Airlink
receiver. Turns ON at the threshold level.
Air RX Sync LED Yellow LED. Turns ON if the rate of the received
Data matches the Data Rate set on the Data Rate
DIP switch. F/O Main, RX Flag LED
Upper green LED indicates Data received by the
Fiber Optic receiver. Turns ON at the threshold
level. F/O Main, RX Sync LED
Lower green LED. Turns ON if the rate of the
received Data matches the Data Rate set on the
Data Rate DIP switch. F/O Redundant, RX Flag LED (Optional)
Upper green LED indicates Data received by the
Fiber Optic receiver. Turns ON at the threshold
level.
F/O Redundant, RX Sync LED (Optional)
Lower green LED. Turns ON if the Fusion is
active and there is synchronization with the
received Data.
Optical Power 7­segment display
Digital readout indicates the Optical Power level
received by the Airlink receiver.
Alignment LED Yellow LED. Turns ON if the Alignment
Operating Mode is selected. Loop LED Yellow LED. Turns ON in LOOPBACK mode.
Flashing in Remote Loop mode. Fusion LED Yellow LED. Turns ON if the Fusion mode is
enabled.
Flashing when the Fusion (radio back-up system) is
active. Heating LED Yellow LED. Turns ON if the heating mode is
selected (Heating is enabled). SW Mode LED Red LED. Turns ON if the SW Mode
(SOFTWARE) Operating Mode is selected. Lasers status LEDs There are 3 LEDs – L1, L2, L3 indicating if the
lasers are switched on or off. If the LED is
switched off, the laser is switched off. If the LED is
switched ON, the laser is switched ON.
When the DIP switch toggle #3 is moved to ON
position the LED L1 and its corresponding laser
will turn off PS1 Green LED. Turns ON when main power supply is
active PS2 Green LED. Turns ON when redundant power
supply is active Heater ON Green LED. Turns ON when the heating of the
front window is active.
The heating will start operating only if one of the
following conditions is present: or the temperature
is lower than 15
o
C; or the humidity level in the air is above 80%. There is a controller with a thermostat inside the TereScope, which controls the heating in accordance with the above conditions. (The heating option is not standard, and exists only if purchased)
Management TX Flashing when the RSM-SNMP is connected and
the TereScope is transmitting management Data. (There is no Link indication)
Management RX Flashing when the RSM-SNMP is connected and
the TereScope is receiving management Data. (There is no Link indication)
8
MRV Communications, Inc. – Installation Manual
A
N
B. TS5000/G-F (Standard Model including Fusion option)
LASERS STATUS
(BACK VIEW)
L 2 ONL 1 ON
ot in use
L 3 ON
AIR RX
FLAG SYNC
1
MANAGEMENT
DS 1
Tx 1-2
Rx 3-6
OPTICAL POWER
REMOTE MONITOR
Pluggable interface, with Fusion option
1766240
Tx
Rx
TELESCOPE
DIP Switch Toggles 4, 7 and 9 positions are immaterial.
1
1010
ALIGNMENT LOOP FUSION HEATING SW MODE
DS 2
VOID EXPOSURE
INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
FLAG FLAG
SYNC SYNC
Mode Select
Attenuation for Short Di stance Link
Fusion
Window Heater (if exist)
IP Address Setup
Control Mode
AVOID EXPOSURE
F I B E R O P T I C
REDUNDANT TX RX
FOR FUSION
TABLE FOR DS 2
Normal Alignment Local Loopback Remote Loopback Normal Attenuated Disable Enable Off On Default IP Software IP HW MODE SW MODE
TX RX
POWER SUPPLY
USE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-Inch
L
+/~
MAIN
OFF
ON
-
1,2
1 2
1
2
-
1,2
3
-
-
3
5
-
-
5
-
6
-
6
-
8
-
8
-
10
-
10
POWER
HIGH VOLT.
G GN
-/~
LOW VOLT.
Telescope
Pluggable Power Supply
CAUTION
DO NOT USE TELESCOPE
TO LIFT UNIT ! !
POWER SUPPLY
POWER
USE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-Inch
HIGH VOLT.
G
L
+/~
PS1 PS2 HEATER ON
G
LOW VOLT.
N
-/~
Redundant PS
Figure 1.4: TS5000/G-F with a redundant power supply Panel Schematic
This special TS5000/G-F model can be connected to the back-up radio system without special MRV’s Switch and card supporting Fusion. This TereScope can be connected to any Giga-Switch with
1000Base-SX port, which should
be connected to the optical port of the TereScope labeled “Redundant”, while the back-up radio system is connected to the 10Base-T port of the same Switch.
For more details please see pages 15 and 16
9
MRV Communications, Inc. – Installation Manual
V
LASERS STATUS
(BACK VIEW)
L 2 ONL 1 ON
L 3 ON
TELESCOPE
AIR RX
FLAG SYNC
1
10
MANAGEMENT
TABLE FOR DS 1
Data Rate
1766240
OPTICAL POWER
REMOTE MONITOR
DS 1 DS 2
Tx
Rx
Tx
3-6
1-2
Fast Ethe rnet 100M bps ATM/OC3/STM1: 155Mbps SMPTE: 143 Mbps E3: 34.368 Mbps T3: 44.736 Mbps OC1/STM0 : 51 .8 40 Mb ps Customiz ed 1 Customiz ed 2 Open Protocol
Rx
OFF
1,2,3,4
2,3,4
3,4 1,2
1,2,4
2,4 1,4
4 1,3,4 1,2,3
C. TS5000/155
(w/o Fusion and with one power supply)
The TS5000 supports most of the prevalent protocols in the 34-155 Mbps range. Special protocol, which is not on the list, can be ordered after coordination with the factory. This model can be used for Open Protocol applications, which ensures complete transparency (including all data in the range of 1-155 Mbps.) In this case maximum 2 dB of the performance is lost.
POWER SUPPLYPOWER SUPPLY
DISCONNECT POWER SUPPLY
FROM MAINS
BEFORE REMOVAL FROM UNIT
POWERPOWER
USE COPPER CONDUCTORS ONLYUSE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-InchTORQUE VALUE 7 Lb-Inch
HIGH HIGH VOLT.
OLT.
L L
G G GGN N
1
10
ALIGNMENT LOOP FUSION HEATING SW MODE
+/~+/~
LOW LOW VOLT.VOLT.
-/~-/~
REDUNDANT
POWER SUPPLY
This slot can
house an additi ona l
power supply
to be fed
from backup
voltage source.
This can be
independent
of the primary
voltage so urce for
maximum redundancy.
For details:
Contact an authorized
MRV representative
or visit www.mrv.com
INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
AVOID EXPOSURE
F I B E R O P T I C
TX RX
FLAG
SYNC
PS1 PS2 HEATER ON
ON
1,3
2,3
1,2,3
­1
3
2 4
TABLE FOR DS 2
Mode Select
Alignment Signal Attenuation
Laser Status
Fusion
Window Heater (if exist)
IP Address Setup
Control Mode
Normal
Alignment Local Loopback Remote Loopback Off On Laser Enable Laser Disable Disable Enable Off On Default IP Software IP HW MODE SW MODE
OFF
ON
-
1,2
1 2
1
2
-
1,2
-
3
-
3
-
4
-
4
-
5
5
-
-
6
-
6
-
8
-
8
-
10
10
-
CAUTION
DO NOT USE TELESCOPE
TO LIFT UNIT ! !
Figure 1.5: TS5000/155 Standard Model Panel Schematic
10
MRV Communications, Inc. – Installation Manual
Back Panel Description
Table 3: TS5000/155 Back Panel Controls, Interfaces, and Indicators
Connectors
Power Power source Terminal Block (Main or UPS).
AC power supply (100 to 240 Vac) or DC power supply (35 to 60 Vdc)
Fiber optic
Remote Monitor Connection to an optional Remote Status Monitor
Management
Fiber Optic interface for connection to the peripheral equipment. The standard interface is MM 1310nm SC connector; other interfaces are available upon request (refer to price list or data sheet). In model TS5000/155-F with the fusion option, there are two fiber optic interface ports for connection to the Fusion system; one primary and the other redundant.
(RSM) or to RSM-DC (for Dry Contact connection) (not included in the standard transceiver kit)
Connection to 10Base-T SNMP management interface. Pins 1,2: TX and 3,6 RX. Pins (4,5) and (7,8) of this connector can be used for dry contact purposes, for Airlink flag and F/O flag alarms respectively
Note:
Pins (4, 5) and (7, 8) of the management RJ45 connector can be used for dry contact
purposes, for Airlink flag and F/O flag alarms respectively
Alignment Telescope
For fine alignment.
Power
Power Supply
Slot for Power Supply
Pluggable AC power supply (100 to 240 Vac) or DC power supply (35 to 60 Vdc)
This slot can house an additional power supply to
be fed from backup voltage source. This can be independent of primary voltage source for maximum redundancy.
.
11
MRV Communications, Inc. – Installation Manual
Selectors (DIP Switch DS1 Toggles)
---shown on Figures 1.5and
1.6
Selectors (DIP Switch DS2 Toggles)
-- shown in Figures 1.5 and
1.6
Data Rate (Toggles 1, 2, 3 and
4)
Mode Select (Toggles 1, 2)
Alignment Signal Attenuation (Toggle 3)
Laser Status (Toggle 4) Fusion (Toggle 5)
Window Heater (Optional) (Toggle 6)
IP address set up (Toggle 8)
Control Mode (Toggle 10)
Set the transmission rate of the transceiver (internal clock).
- Fast Ethernet: 1,2,3,4 OFF
- ATM/OC3/STM1: 155 Mbps: 2,3,4 OFF, 1 ON
- SMPTE 143 Mbps: 3,4 OFF, 1,2 ON
- E3: 34.368 Mbps 1,2,4 OFF, 3 ON
- T3: 44.736 Mbps: 2,4 OFF, 1,3 ON
- OC1/STM0: 51.840 Mbps: 1,4 OFF, 2,3 ON
- Customized 1 : 4 OFF, 1,2,3 ON
- Customized 2 : 1,3,4 OFF, 2 ON
- Open Protocol: 1, 2, 3 OFF, 4 ON. Set the Operating Mode ALIGNMENT = Idle transmitted automatically NORMAL
= Signal received via the F/O port is transmitted through the Airlink TX. Signal received via the Airlink RX is transmitted through the F/O TX. LOOPBACK
= Data received by the F/O RX is directly returned through the F/O TX. REMOTE LOOP
= Loops the electrical RX to the electrical TX and optical RX to the optical TX of the remote unit.
ATTENUATION: The alignment signal is attenuated (~20db) when the DIP switch toggle #3 is moved to ON position.(to use when the installation distance is less than 900m only for alignment mode). Switch back to OFF position for normal mode. Turning off TXs lasers when the DIP switch toggle #4 is moved to ON This switch toggle enables working with MRV’s Fusion system (Built-in fusion option or switch option). For additional information, see page 14. Switch toggle 5 OFF: Fusion not Active (Disabled) Switch toggle 5 ON: Fusion active (Enabled). Used only with the heating option (To be specified in the PO). Switch toggle 6 OFF: The heater is disabled Switch toggle 5 ON: The heater is enabled. The heating will start operating only if one of the following conditions is present: or the temperature is
o
lower than 15
C; or the humidity level in the air is above 80%. There is a controller with a thermostat inside the TereScope, which controls the heating in accordance with the above conditions. When the Switch toggle is on OFF position, the TereScope’s IP address is the default one (shown on the back panel label: 10.0.0.101). To set a new IP address, please refer to the “IP address setting procedure for TereScope management card” file in the Manuals CD. The new IP address is valid only after the TereScope is powered off and on.
When the Dip Switch toggle #10 is on OFF position, the TereScope is in the HARDWARE mode, i.e. the TereScope is controlled only by the TereScope itself by means of the switches on its back panel. When the Dip Switch toggle is on ON position, the TereScope is in the SOFTWARE mode i.e. the TereScope is controlled by the management Software and various functions can be activated by means of this management Software.
12
MRV Communications, Inc. – Installation Manual
Indicators (7-segment display and LEDs)
Air RX Flag LED Green LED indicates data received by the Airlink
receiver. Turns ON at the threshold level.
Air RX Sync LED Yellow LED. Turns ON if the rate of the received
Data matches the Data Rate set on the Data Rate
F/O Main, RX Flag LED
DIP switch. Upper green LED indicates Data received by the Fiber Optic receiver. Turns ON at the threshold
level. F/O Main, RX Sync LED
Lower green LED. Turns ON if the rate of the
received Data matches the Data Rate set on the
Data Rate DIP switch. F/O Redundant, RX Flag LED (Optional)
Upper green LED indicates Data received by the
Fiber Optic receiver. Turns ON at the threshold
level.
F/O Redundant, RX Sync LED (Optional)
Lower green LED. Turns ON if the Fusion is
active and there is synchronization with the
received Data.
Optical Power 7­segment display
Digital readout indicates the Optical Power level
received by the Airlink receiver.
Alignment LED Yellow LED. Turns ON if the Alignment
Operating Mode is selected. Loop LED Yellow LED. Turns ON in LOOPBACK mode.
Flashing in Remote Loop mode. Fusion LED Yellow LED. Turns ON if the Fusion mode is
enabled.
Flashing when the Fusion (radio back-up system) is
active. Heating LED Yellow LED. Turns ON if the heating mode is
selected (Heating is enabled). SW Mode LED Red LED. Turns ON if the SW Mode
(SOFTWARE) Operating Mode is selected. Lasers status LEDs There are 3 LEDs – L1, L2, L3 indicating if the
lasers are switched on or off. If the LED is
switched off, the laser is switched off. If the LED is
switched ON, the laser is switched ON.
When the DIP switch toggle #3 is moved to ON
position the LED L1 and its corresponding laser
will turn off PS1 Green LED. Turns ON when main power supply is
active PS2 Green LED. Turns ON when redundant power
supply is active Heater ON Green LED. Turns ON when the heating of the
front window is active.
The heating will start operating only if one of the
following conditions is present: or the temperature
is lower than 15
o
C; or the humidity level in the air is above 80%. There is a controller with a thermostat inside the TereScope, which controls the heating in accordance with the above conditions. (The heating option is not standard, and exists only if purchased)
Management TX Flashing when the RSM-SNMP is connected and
the TereScope is transmitting management Data. (There is no Link indication)
Management RX Flashing when the RSM-SNMP is connected and
the TereScope is receiving management Data. (There is no Link indication)
13
MRV Communications, Inc. – Installation Manual
D. TS5000/155-F (Standard Model including Fusion option)
LASERS STATUS
(BACK VIEW)
L 2 ONL 1 ON
L 3 ON
TELESCOPE
AIR RX
FLAG SYNC
1
OPTICAL POWER
REMOTE MONITOR
10
DS 1 DS 2
MANAGEMENT
Rx
Tx
3-6
1-2
Tx Rx
OFF
1,2,3,4
2,3,4
3,4 1,2
1,2,4
2,4 1,4
4 1,3,4 1,2,3
Data Rate
1766240
TABLE FOR DS 1
Fast Ethernet 100Mbps ATM/OC3/STM1: 155Mbps SMPTE: 143 Mbps E3: 34.368 Mbps T3: 44.736 Mbps OC1/STM0 : 51.8 40 Mbps Customized 1 Customized 2 Open Protocol
ON
1,3 2,3
1,2,3
POWER SUPPLY
POWER
USE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-Inch
HIGH VOLT.
L
G
N
1
10
­1
3
2 4
ALIGNMENT LOOP FUSION HEATING SW MODE
INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE
FLAG FLAG
SYNC SYNC
Mode Select
Alignment Signal Attenuation
Laser Status
Fusion
Window Heater (if exist)
IP Address Setup
Control Mode
AVOID EXP OSU RE
F I B E R O P T I C
REDUNDANT TX RX
FOR FUSION
TABLE FOR DS 2
Normal Alignment Local Loopback Remote Loopback Off On Laser Enable Laser Disable Disable Enable Off On Default IP Software IP HW MODE SW MODE
MAIN
TX RX
OFF
1,2
1
­3
-
4
­5
-
6
-
8
-
10
-
ON
-
1 2 2
1,2
­3
­4
­5
-
6
­8
-
10
+/~
G
LOW VOLT.
-/~
CAUTION
DO NOT USE TELESCOPE
TO LIFT UNIT ! !
POWER SUPP LY
POWER
USE COPPER CONDUCTORS ONLY
TORQUE VALUE 7 Lb-Inch
HIGH VOLT.
G
L
+/~
PS1 PS2 HEATER ON
G
LOW VOLT.
N
-/~
Figure 1.6: TS5000/155-F with a redundant power supply Panel Schematic
This special TS5000/155-F model can be connected to the back-up radio system without special MRV’s Switch and card supporting Fusion. This TereScope can be connected to any Switch (supporting 10/100) via standard converter, which should be connected to the optical port of the TereScope labeled “Redundant”, while the back-up radio system is connected to the same Switch.
The TereScope can be also directly connected to MC (Media Converter) of the type 10/100 TX-100 FX (for example MRV’s media converter MC102F). When the TereScope stops operating, the connectivity from the main optical module to the air channel stops and starts flowing into the second optical module designated for radio.
14
MRV Communications, Inc. – Installation Manual
That’s what happens when the air channel stops
Main
F/O
Network
RF Transceiver
F/O
Redundant
10/100TX-100FX
Media Converter
IR = 100 Mbps or 1.25Gbps
RF = 2-10 Mbps Or 100Mbps
TS
Redundant
Main
F/O
F/O
RF Transceiver
10/100 BaseT
STP
Switch
10/100 BT
MC
Network
10/100 BaseT
STP
Figure 1.7a: TS5000/155-F or TS5000/G-F & Fusion Connections
For Description of the Back Panel and all the functions see Paragraph B for TS5000/G-F and paragraph D for TS5000/155-F, Figure 1.4 or 1.6 – TS5000 with Fusion model, page 9 or 14.
Fusion Operation Mode
When at least one of the air channels (IR) is cut for more than one second or drops to approx. 40mV
1. TereScope switches to Fusion mode,
2. Data is transmitted from Main module to Redundant module without passing through the air channel,
3. The signal is converted to 10/100BaseT by the Switch and the data Rate decreases to ~ 2-50 Mbps (depending on RF system).
The system switches back to IR channel (TereScope) only when the display readout on both sides increases to approx. 110mV2 for TS5000/155 and 60mV for TS5000/G.
Note: To activate the Fusion option, DIP Switch DS2 toggle 5 to the ON position.
1
at the display readout:
_____________________________________________________
1
100mV for TS5000/155 Rev 3.0 and less
2
200mV for TS5000/155 Rev 3.0 and less
15
MRV Communications, Inc. – Installation Manual
Fusion
Maximizing Link Availability in All Weather Conditions.
The TereScope Fusion was designed to combine the best features of two transport mediums, laser light and radio waves, to form a single, seamless, wireless communication link between network devices. By leveraging both technologies, we can provide the 99.999% availability that your network requires.
Protocol: 10Base-T (IEEE 802.1 1 b)
Frequency: 2.4 - 2.4835 GHz
ISM band (ETSI, FCC
2.4 – 2.497 GHz (Japan)
Output Power: -4 to 24 dBm
Sensitivity: -85 dBm
Operating Power: 110/220 VAC, 500/250
mA
Interface: Shielded RJ45
Specifications are subject to change at any time without
notice.
The TereScope Fusion has been specifically constructed to maximize link availability between network nodes. These systems use the internationally unlicensed, 2.4 GHz ISM band and are used as a backup for a number of TereScope systems.
TereScope Fusion systems have an optical wireless link that provides Fast Ethernet connectivity as the primary link and Ethernet RF as the backup link. These systems operate in most weather conditions, including heavy rain, snow and fog, to nearly 100% link availability. Ease of installation and freedom from licensing make these systems very simple to deploy.
Figure 1.7b: TS & Fusion
16
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