MRV Communications TS700-100, TS700-G, TS700-155, TS800-155 User Manual

TereScope700 and TereScope800

Wireless Optical Communication Links

Models TS700/100, TS700/155, TS700/G, TS800/155

User Manual

WIRELESS OPTICAL COMMUNICATIONS

User Manual

Document Nu mber ML48237 (4703700), Rev. 4.0

February 2006

 MRV Communications, Inc.

Web site: www. mrv.com

MRV Communications, Inc. – Installation Manual

Table of Contents

STANDARDS

Standards Compliance ............................................................................i

FCC Notice ...............................................................................................i

CE Mark ...................................................................................................i

Other Standards .....................................................................................ii

MRVTM Laser Safety Certification........................................................ii

ABOUT THIS USER MANUAL

Audience .................................................................................................iii

Qualifications ......................................................................................... iii

Training .................................................................................................. iii

Experience .............................................................................................. iii

Authorization .........................................................................................iii

SAFETY REQUIREMENTS

Before Installing ....................................................................................iv

Before Powering On ..............................................................................iv

When Installing ......................................................................................iv

Servicing .................................................................................................. v

INTRODUCTION ...............................................................................vi

CHAPTER 1 - THE PRODUCT

Models.......................................................................................................1

General Description ................................................................................2

Front.........................................................................................................2

Back .......................................................................................................... 3

A. TS700/155 (Standard Model)............................................................3

B. TS800/155 (Standard Model)............................................................5

C. TS800/155-F (Standard Model including Fusion option).............. 8

D. TS700/100 (Fast Ethernet)..............................................................11

E. TS700/G (Gigabit Ethernet)............................................................13

Monitoring & Management Options................................................... 15

Typical Connection................................................................................16

CHAPTER 2 - SITE SURVEY

Line of Sight........................................................................................... 17

Orientation.............................................................................................17

Location & Range.................................................................................. 17

Mounting Environment & Stability.....................................................20

Transmitting through a Window.........................................................22

CHAPTER 3 - INFRASTRUCTURE

Power...................................................................................................... 24

MRV Communications, Inc. – Installation Manual

Data/Signal Cabling .............................................................................. 24

For TS700/155, TS700/G, TS800/155, TS800/155-F............................24

For TS700/100.........................................................................................25

CHAPTER 4 - BENCH TEST

TS700/155, TS800/155, and TS800/155-F............................................ 26

TS700/100............................................................................................... 27

TS100/G..................................................................................................28

Display and Results............................................................................... 29

TS700/155, TS800/155, and TS800/155-F............................................ 29

TS700/100............................................................................................... 30

TS700/G..................................................................................................30

CHAPTER 5 - INSTALLATION

Accessories .............................................................................................31

Mounting................................................................................................34

TS Detachement from the JMP-L ..............................................34

Mounting the Accessories............................................................35

Special Mounting.........................................................................36

Attachment of the Transceiver (TereScope Head) ...................38

CHAPTER 6 - AIMING PROCEDURE

Powering on the TereScope .................................................................. 39

Transceiver Alignment..........................................................................40

Coarse Alignment.........................................................................40

Fine Alignment.............................................................................41

Link Operating Test..............................................................................44

Installation Log......................................................................................44

Installation Completion ........................................................................ 44

CHAPTER 7 - MAINTENANCE

Periodic Visits........................................................................................40

APPENDIX A: Product specifications
AP PE NDIX B : Digital Readout vs. Distance
AP PEND IX C: Unpacking Instructions for TereScope
AP PEN D I X D: Tool Kit, Equipment, and Materials
AP PEND IX E: TereScope Bench Test Procedure
AP PEND I X F: Effect of w ind on TereScopes
APPENDIX G: FSO Chaining
AP PE NDIX H: Installation Log
APPENDIX I: Power over Ethernet

MRV Communications, Inc. – Installation Manual

Standards

Standards Compliance

UL 1950; CSA 22.2 No 950; FCC Part 15 Class B; 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 B digital
device, pursuant to Part 15 of the FCC Rules. These limit s 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 instructions in the 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 for the interference at the user’s own expense.
The user is cautioned that changes and mod ifications 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 industrial­process measurement and control equipment Part 4: Section 2 - Electrostatic discharge
requirements

•

EN61000-4-3 (previously IEC 1000-4-3) - Electromagnetic compatibility for industrial­process measurement and control equipment Part 4: Section 3 - Radiated electromagnetic
field requirements

•

EN61000-4-4 (previously IEC 1000-4-4) - Electromagnetic compatibility for industrial­process 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 conduct ed 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 B

•

EN 60950 - ITE Safety

i

MRV Communications, Inc. – Installation Manual

Other Standards

1. CISPR 22: 1993
AS/NZS 3548: 1995, Class B
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

3. 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 beam s 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, A NSI
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 I nt ernational Standard of the International Electrotechnical
Commision 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 produ cts are Class 1M.
A ‘Declaration of Conformity’, in accordance with the above stand ards, 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.

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 © 2004 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 M RV 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.

equipment. The information within

reserves the right to make changes to any technical

ii

MRV Communications, Inc. – Installation Manual

About this User Manual

Audience

This manual is intended for the user who wishes to install, operate, manage and
troubleshoot the TereScope700 and TereScope800.

Qualifications

Users of this guide are expected to have:

• Working knowledge of Electro-optical equipment

• Working knowledge of LAN equipment (Layer 2 and 3)

• A License to install equipment on buildings/elevated structures

• A 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

After all the requirements specified above (namely, Qualifications, Training, and
Experience) have been met, the installer must receive authorization from MRV
certifying eligibility.

iii

MRV Communications, Inc. – Installation Manual

Figure A: 3 terminal cord

forks

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
operation.

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
Power Cord: The power cord of The TereScope must have the following

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

the TereScope.

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.

iv

MRV Communications, Inc. – Installation Manual

casual passersby. 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 (maximum 10 sec.).

Servicing

All servicing must be carried out only by qualified service personnel. Before
servicing, ensure that all power to the TereScope is cut off!

v

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

through the air over an optical wavelength carrier, the IR link – see picture in
Figure B, below.

and aligned to face each other, provide point-to-point connectivity. This
configuration makes possible data transfer from one terminal to the other

The installation of such a link can be summarized as 4 stages:

♦

Site survey

♦

Installation of the infrastructure

♦

Mounting of the equipment

♦

Aiming (alignment) procedure

Always use appropriate safety equipment and
procedures when working with electrical

!

!

!!

equipment and when working on roofs

Figure B: IR Link

vi

.

MRV Communications, Inc. – Installation Manual

The Product

Caution!

When handling the TereScope, take special care not to damage the
polycarbonate window!

Chapter

1

Models

Table 1: Models of the TereScope1

Models

TS700/100 TS100/A/FET/VS TereScope700 for Fast Ethernet

TS700/155 TS155/A/YUW/VS TereScope700 for 1-155 Mbps

TS700/G TS1000/A/YUW/VS TereScope700 for Gigabit Ethernet and

TS800/155 TS155/C2/YUW/VS TereScope800 for 1-155 Mbps

Using the Part Number for Ordering

To place an order for a TereScope model having a specific configuration, use
the Part Number format shown in Table 1, noting the following:

‘155’ represents link operation speed in the range 1 to 155 Mbps.
‘A’ represents TereScope700.
‘C2’ represents TereScope800.
‘Y’ represents Optical Fiber Mode.
Instead of Y use one of the following:

Part Number

M (for MultiMode)

100Base-TX connectivity up to a distance
of 360 m + Power-over-Ethernet option.

connectivity up to a distance of 360 m.

FiberChannel (1.0625) connectivity up to
a distance of 400 m

connectivity up to a distance of 550 m +
Fusion option.

Description

1

TereScope700 or TereScope800.

1

MRV Communications, Inc. – Installation Manual

S (for SingleMode)
‘U’ represents operating wavelength.
Instead of U use one of the following:

8 (for 850 nm)

3 (for 1310 nm)

5 (for 1550 nm)
‘W’ represents connector type.
Instead of W use one of the following:

C (for SC)

T (for ST)
‘FET’ (Fast ethernet) represents 100Base-TX with RJ45 connector
‘V’ represents existence/absence of Fusion.
Instead of V use one of the following:

V designates no built-in Fusion option.

F designates built-in Fusion option (only in TS800).
‘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 24-60 VDC)

Examples

1 - TS155/A/M3C/VS means TS700/155 :1-155Mbps link, Multimode, 1310
nm, SC interface, 100-240 VAC power supply.

2 - TS155/C2/S3T/F3 : TS800/155 :1-155Mbps link, Singlemode, 1310 nm,
ST interface, built-in Fusion option, 24-60 VDC power supply.

Front view
Showing the receiver
side, the transmitters and
the telescope

Transmitter

Telescope

CAUTION!

AVOID EXPOSURE –
INVISIBLE LASER
RADIATION IS EMITTED
FROM THIS APERTURE

General Description and explanations

1. Front

Each TereScope head comprises a receiver, 1 transmitter and an interface on the
rear panel for connection to the peripheral equipment see Figure 1.1.

Receiver

Figure 1.1: Front View

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MRV Communications, Inc. – Installation Manual

2. Back

All models of the TereScope are SNMP manageable. SNMP monitoring can be
performed using MRV’s MegaVision SNMP management application.

A. TS700/155 (Standard Model)

The TS700 supports Fast Ethernet, OC3, STM1, E3, and T3 protocols in the 34­155 Mbps range. A special type of TS700 can be ordered that can be used for

Open Protocol applications which ensures complete transparency (including all
data in the range of 1-155 Mbps.) In this type, less than 2 dB of the budget is

lost.

If you need to install the
SNMP card into the
TereScope, after installing
the card and before
closing the back panel,
carefully punch out this
piece of metal.

DIP Switch
Toggles 6,7,8

Position

positions are
not used.

MANAGEMENT

Mode of

Switch

1 23

Align ment

UP

Norma l

DOWN

NOT IN

USE

Ip

Address

Fast

Defau l t IP

Ethern e t

-

4,5

Local
Loopback

Norma l

MRV

Figure 1.2a: TS700/155 Standard Model Panel Schematic

AIR RX

FLAG

SYNC

OPTICAL POWER

Data Rate

ATM

E3 T3

OC3

4,5

4

-

5

F/O RX

FLAG

SYNC

FIBER OPTIC

TX RX

POWER

USE COPPER CONDUCTORS ONLY

LOW

+/~ -/~

VOLT.

HIGH

VOLT.

G

L G N

TORQUE VALUE 7 Lb-Inch

TELESCOPE

5

4

Main Data:
SC or ST
Connector

1762310-SC

Figure 1.2b: Rear View of TS700/155

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MRV Communications, Inc. – Installation Manual

Back Panel Description

Table 2: TS700/155 Standard Model Back Panel Controls, Interfaces, and Indicators

Connectors

Selectors
(DIP Switch
Toggles)

shown in Figure

1.3

--

Indicators

Fiber optic

Management

(Optional)

Mode of Operation

(Toggles 1 and 2)

IP address set up

(for Mgt. option)

(Toggle 3)

Data Rate

(

Toggles 4 and 5)

Air RX Flag LED

Power

(7-segment
display,
LEDs)

Air RX Sync LED Yellow LED. Turns ON if the rate of the received

F/O RX Flag LED Green LED indicates Data received by the Fiber

F/O RX Sync LED Yellow LED. Turns ON if the rate of the received

Optical Power 7­segment display

Alignment Telescope

Power source Term inal Block (Main or UPS)
AC power supply (100 to 240 Vac) or DC power
supply (24 to 60 Vdc)

Fiber Optic interface for connection to the
peripheral equipment. The standard interface is MM
1310nm SC connector; other interfaces are available
upon request.

For fine alignment.

Connection to 10base-T SNMP mana gement
interface. (To be ordered separately)

Set the Operating Mode
ALIGNMENT = Idle transmitted automatic ally
NORMAL = Signal received through the F/O port
is transmitted through the Airlink TX. Signal
received through the Airlink RX is transmitted
through the F/O TX.
LOOPBACK=The Data received by the F/O RX is
directly returned through the F/O TX.

Used only with the management option. When the
Switch toggle is on OFF position, the TereScope’s
IP address is the d efault 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 powere d off and on.

Set the transmission rate of the tra nsceiver (internal
clock).

- Fast Ethernet: 4,5 OFF

- ATM/OC3/STM1:155 Mbps: 4,5 ON

- E3: 34.368 Mbps: 5 OFF, 4 ON

- T3: 44.736 Mbps: 4 OFF, 5 ON

Green LED indicates data received by the Airlink

receiver. Turns ON at the threshold level.

Data matches the Data Rate se t on the Data Rate
DIP switch.

Optic receiver. Turns ON at the threshold level.

Data matches the Data Rate se t on the Data Rate
DIP switch.

Digital readout indicates the Optical Power level
received by the Airlink receiver.

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MRV Communications, Inc. – Installation Manual

g

y

B. TS800/155 Standard Model

The TS800/155 supports most of the prevalent protocols in the 34-155 Mbps
range. Support for a 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, a maximum 2 dB of the power budget is lost.

Figure 1.3: TS800/155 Standard Model Panel Schematic

Back Panel Description

Table 3: TS800/155 Standard Model Back Panel Controls, Interfaces, and Indicators

Connectors

Power

Fiber optic

Remote monitor Connection to the RSM. (The RSM has to be

Management

Power source Terminal Block (Main or UPS).
AC power supply (100 to 240 Vac) or DC power
supply (24 to 60 Vdc)
Fiber Optic interface for connection to the
peripheral equipment. The standard interface is MM
1310nm SC connector; other interfaces are available
upon request.
In model TS800/155-F with the fusion option, there
are two fiberoptic interface ports for connection to
the Fusion system; one primary and the other
redundant.

ordered separately)
Connection to 10Base-T SNMP management

interface.

Pins (4,5) and (7,8) of this connector can be used
for dry contact purposes, for Airlink flag and F/O
fla

Pins 1,2: TX and 3,6 RX.

alarms respectivel

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MRV Communications, Inc. – Installation Manual

Selectors
(DIP Switch
DS1 Toggles)

-- shown in
Figure 1.3and

1.4

Selectors
(DIP Switch
DS2 Toggles)

-- shown in
Figure 1.3 and

1.4

Note:

Pins (4,5) and (7,8) of the management RJ45 connector can be used for dry

Data Rate

(Toggles 1,2,3,4)

Mode Select

(Toggles 1, 2, 3)

Laser Power Off

(Toggle 4)

Fusion

(Toggle 5)

Window Heater

(Optional)

(Toggle 6)

IP address set up

(Toggle 7)

Control Mode

(Toggle 8)

Set the transmission rate of the tra nsceiver (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 Mbps1,2,4 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 automatic ally
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 ele ctrical 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 200m only for
alignment mode). Switch back to OFF position for
normal mode.
Turning off laser TX when the DIP switch toggle is
moved to ON
This switch toggle enables working with MRV’s
Fusion system (Built-in fusion option or switch
option). For additional information, se e page 7.
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.
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 r efer to the “IP addre ss setting
procedure for TereScope management card” file in
the Manuals CD. The new IP a ddress is valid only
after the TereScope is powered off and on.

When the Dip Switch toggle #8 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 var i ous functions can be activa ted by
means of this management Software.

contact purposes, for Airlink flag and F/O flag alarms r espectively.

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MRV Communications, Inc. – Installation Manual

Indicators
(7-segment
display and
LEDs)

Air RX Flag LED

Air RX Sync LED Yellow LED. Turns ON if the rate of the received

F/O Main, RX Flag
LED

F/O Main, RX Sync
LED

F/O Redundant, RX
Flag LED
(Optional)

F/O Redundant, RX
Sync LED
(Optional)

Optical Power 7­segment display

Alignment LED Yellow LED. Turns ON if the Alignment

Loopback LED Yellow LED. Turns ON in LOOPBACK mode.

Fusion LED Yellow LED. Turns ON if the Fusion mode is

SW Mode LED Red LED. Turns ON if the SW Mode

Laser Status Shining Red LED: Turns ON when the Laser is

Management TX Flashing when the RSM-SNMP is connected and

Management RX Flashing when the RSM-SNMP is connected and

Green LED indicates data received by the Airlink

receiver. Turns ON at the threshold level.

Data matches the Data Rate se t on the Data Rate
DIP switch.

Upper green LED indicates Data received by the
Fiber Optic receiver. Turns ON at the threshold
level.

Lower green LED. Turns ON if the rate of the
received Data matches the Data Rate set on the
Data Rate

Upper green LED indicates Data received by the
Fiber Optic receiver. Turns ON at the threshold
level.

Lower green LED. Turns ON if the Fusion is
active and there is synchronisation with the
received Data

Digital readout indicates the Optical Power level
received by the Airlink receiver.

Operating Mode is selected.

Flashing in Remote Loop mode.

enabled.
Flashing when the Fusion (radio back-up system) is
active.

(SOFTWARE) Operating Mode is selected.

ON and turns OFF when the laser is powered off
by pushing the DS toggle #4 ON.

the TereScope is transmitting management Data.
(There is no Link indication)

the TereScope is receiving management Data.
(There is no Link indication)

DIP switch.

.

Alignment Telescope

For fine alignment.

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MRV Communications, Inc. – Installation Manual

C. TS800/155-F (Standard Model including Fusion option)

Figure 1.4: TS800/155-F Standard Model Panel Schematic

This special TS800/155-F model can be connected to the back-up radio
system without a special MRV switch and card supporting Fusion. This
TereScope can be connected to any switch (supporting 10/100 Mbps data
rate) via a standard converter that should be connected to the optical port of
the TereScope labeled “Redundant”, while the back-up radio system is
connected to the same Switch.

As an alternative, the TereScope can be directly connected to a Media
Converter of 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.

8

That’s what

RF T

RF T

happens when
the air channel
is interrupted.

Main

F/O

TS

ransceiver

MRV Communications, Inc. – Installation Manual

IR = 100 Mbps

ransceiver

RF = 2-10 Mbps

TS

Main

F/O

Redundant

F/O

Network

10 Base-T

F/O

Redundant

10/100TX-100FX
Media Converter

Switch

10/100 Base-T

10 Base-T

STP

Figure 1.5a: TereScope800/155 F - & Fusion System Connection

For a description of the Back Panel and all the functions, see Paragraph B table 3, and
Paragraph C Figure 1.4 – TS800 with Fusion model, page 8.

Fusion Operation Mode

STP

MC

Network

When at least one of the air channels (IR) is cut for more than one second or drops to
approximately 60 mV at the display readout:

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 10Base-T by the Switch and the data Rate decreases
to 2-10 Mbps

The system switches back to IR channel (TereScope) only when the display readout on both
sides increases to approximately 150 mV.

Note: To activate the Fusion option, set DIP Switch toggle 5 to the ON position.

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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 with nearly 100% link availability. Ease of installation and freedom
from licensing make these systems very simple to deploy.

Figure 1.5b: TS & Fusion

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MRV Communications, Inc. – Installation Manual

D. TS700/100 - Fast-Ethernet System

Figure 1.6: TS700/100 Model Back Panel

Back Panel Description

Table 4: TS700/100 Back Panel Controls, Interfaces, and Indicators

Power

Connectors

100Base-TX

Management
(Optional)

Dry Contacts There are 2 pairs of dry contact indicators available,

Power source Term inal Block (Main or UPS)
AC power supply (100 to 240 Vac) or DC power
supply (24 to 60 Vdc).

Copper interface (RJ45) for STP cables.
MDI-X connection (TX: pins 3,6 and RX: pins 1,2 ).
Connection to the peripheral equipment.
This connector can be used for Power-over-Ethernet
(PoE) but only with the Low Voltage TereScope version
(TS100/A/FET/V3). The standard power for PoE is
36-57 Vdc. However, the TS700/100 can operate with
20-60 Vdc.
See appendix I.

Connection to 10Base-T SNMP management
interface. (To be ordered separately)

one for Air RX Link LED (Pins 1 a nd 2), and the
other for 100BaseT LED (Pins 3 and for). Dry
contacts are normally closed (25 ohms), and open in
an alarm condition

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MRV Communications, Inc. – Installation Manual

Selectors
(DIP Switch
Toggles)

shown in Figure

1.6

--

Mode of Operation
(Toggles 1, 2)

IP address set up
(for Mgt. option)
(Toggle 3)

Speed
(Toggle 4)

Indicators
(7-segment
display,
LEDs)

Air RX Link LED

Air RX Data LED

TP RX Link LED

TP RX Data LED

Optical Power 7­segment display

Alignment Telescope

Set the Operating Mode
ALIGNMENT = Idle transmitted automatic ally
NORMAL = Signal received through the TP port is
transmitted through the Airlink TX. Signal received
through the Airlink RX is transmitted through the
TP TX.
LOOPBACK=The Data received by the TP RX is
directly returned through the TP TX

Used only with the management option. When the
Switch toggle is on OFF position, the TereScope’s
IP address is the d efault 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 powere d off and on.

Sets the TereScope to Auto-negotiation mode or to
forced 100 mode:

OFF :

Auto-negotiation, ON: Forced 100

For fine alignment.

Green LED indicates signal received by the Airlink
receiver. Turns ON at the threshold level.

Yellow LED blinking indicates Data transfer via
the Airlink receiver to the interface.

Green LED indicates Link established at the
100Base-T receiver. Turns ON when connected to
peripheral equipme nt.

Yellow LED blinking indicates Data transfered via
the 100Base-TX interface.

Digital readout indicates the Optical Power level
received by the Airlink receiver.

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MRV Communications, Inc. – Installation Manual

E. TS700/G - Gigabit-Ethernet System

The TereScope 700/G supports Gigabit Ethernet and FiberChannel
protocols. The physical design and configuration of the TS700/G is similar to
the other members of the series, and its operational principles are essentially
the same. However, The TS700/G only offers a duplex fiber interface. The
standard is 850nm SC multimode. (850nm ST multimode, 1310nm and
1550nm SC singlemode are available on request).

Transmitte r

Switch

Position

UP

DOWN

MANAGEMENT

Not

Used

Mode

1 23

Normal

Attenuated

Ip

Data

Address

Rate

4

Software

Gigabit

Ethernet

IP

Fiber

Default

Channel

IP

1.0625

MRV

AIR RX

FLAG

LASER

ENABLED

FIBER OPTIC

TX RX

F/O RX

OPTICAL POWE R

Figure 1.7: TS700/G Model Back Panel

FLAG

AIR

FLAG

POWER

F/O

FLAG

DRY-CONTACT

LASER

ENABLED

USE COPPER CONDUCTORS ONLY

LOW

+/~ -/~

VOLT.

HIGH

VOLT.

G

L G N

TORQUE VALUE 7 Lb-Inch

POWER

TELESCO PE

1762318-SC

Table 5: TS700/155 Standard Model Back Panel Controls, Interfaces, and Indicators

Connectors

Power

Power source Term inal Block (Main or UPS)
AC power supply (100 to 240 Vac) or DC power
supply (24 to 60 Vdc)

Fiber optic

Fiber Optic interface for connection to the
peripheral equipme nt.
The standard interface is MM 850nm SC connector;
other interfaces ar e available upon request.

Management
(Standard)

Connection to 10base-T SNMP mana gement
interface.

Dry Contact There are 4 pairs of dry contact indicators available:

Power

#

Air RX Link LED

#

F/O Flag LED

#

Laser Enabled

#

Dry contacts are normally closed (25 ohms), and
open in an alarm condition

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MRV Communications, Inc. – Installation Manual

Selectors
(DIP Switch
Toggles)

shown in Figure

1.7

--

Indicators

Transmitter Mode
(Toggle 1)

Not Used
(Toggle 2)

IP Address
(Toggle 3)

Data rate
(Toggle 4)

Air RX Flag LED

(7-segment
display,
LEDs),Dry

Laser Enabled LED Red LED. Turns ON to indicate that laser in

Contact
Alarms

F/O RX Flag LED Green LED indicates Data received by the Fiber

Pins 1,2 Closed (25 ohm) = Internal DC powe r functional

Pins 3,4 Air Rx alarm

Pins 5,6 F/O Rx alarm

Pins 7,8 Laser Enabled Alarm

Optical Power 7­segment display

Alignment Telescope

ON position (up) for links above 150m distance.

For fine alignment.

OFF position (down) is for under 170m distance

Not used.
(No internal loopback function. For a complete
loop test, far-end loopback of airlink data can be
performed externa lly with fiber from Tx to Rx)

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 r efer to the “IP addre ss setting
procedure for TereScope management card” file in
the Manuals CD. The new IP a ddress is valid only
after the TereScope is powered off and on.

ON position (up) for Gigabit Ethernet,
OFF position (down) for 1.0625Gb/s FiberChannel

Green LED indicates signal received by the Airlink

receiver. Turns ON at the threshold level.

enabled to transmit light.

Optic receiver. Turns ON at the threshold level.

Open = internal DC voltage not present in circuit

Closed (25 ohm) = airlink optical power received
above threshold
Open = received optical signal below threshold

Closed (25 ohm) = received signal at fiber interface
above threshold
open = signal received at fiber receiver below
threshold

Closed (25 ohm) laser is enabled
Open = laser is disabled due to malfunction

Digital readout indicates the Optical Power level
received by the Airlink receiver.

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