MRV Communications Mouse TS5000 4U1 V User Manual

Wireless Optical Communications

TS5000/XXX

(TS5000G/XYZ/V**, TS5000/XYZ/V**,

TS5000/ETH/V*, TS5000/4U1/V*)

InstallationManual

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Table of Contents

S T A N D A R D S

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

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

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

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

MRV^TMLaser Safety Certification........................................................ii

About this Installation Manual ............................................................iii

S A F E T Y R E Q U I R E M E N T S

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

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

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

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

Introduction ............................................................................................vi

C H A P T E R 1 - T H E P R O D U C T

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

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C H A P T E R 2 - S I T E S U R V E Y

Line of Sight........................................................................................... 24

Orientation............................................................................................. 24

Location & Range.................................................................................. 24

Mounting Environment & Stability..................................................... 27

Transmitting through a Window ......................................................... 29

C H A P T E R 3 - I N F R A S T R U C T U R E

Power ...................................................................................................... 30

Data/Signal Cabling .............................................................................. 30

C H A P T E R 4 - B E N C H T E S T

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

C H A P T E R 5 - I N S T A L L A T I O N

Accessories ............................................................................................. 40

Mounting ................................................................................................ 43

Accessories.................................................................................... 43

Attachment of the Transceiver ................................................... 43

Particular Figure Cases/Techniques.................................................... 45

C H A P T E R 6 - A I M I N G P R O C E D U R E

Powering on the TereScope .................................................................. 46

Transceiver Alignment.......................................................................... 47

Coarse Alignment......................................................................... 47

Fine Alignment............................................................................. 47

Link Operating Test.............................................................................. 50

Installation Log...................................................................................... 50

Installation Completion ........................................................................ 51

C H A P T E R 8 - M A I N T E N A N C E

Periodic Visits ........................................................................................ 53

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A P P E N D I X A . Product specifications

A P P E N D I X B . Digital Readout vs. Distance

A P P E N D I X C . Unpacking Instructions

A P P E N D I X D . Tool Kit, Equipment and Materials

A P P E N D I X E . TereScope Bench Test Procedure

A P P E N D I X F . Effect of wind on TereScope Devices

A P P E N D I X G . FSO Chaining

A P P E N D I X H . Installation Log

A P P E N D I X I . Power Supply Replacement

A P P E N D I X J . TS5000/155 AND TS4000/155 ENHANCEMENTS

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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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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.

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 equipment. The information within

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 reserves the right to make changes to any technical

specifications in order to improve reliability, function or design.

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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

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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.

Figure A: 3 terminal cord forks

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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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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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

and aligned one facing each other, provide a point-to-point connectivity.

This configuration makes possible data transfer from one terminal to the

other through the air over an optical wavelength carrier, the IR.

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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Chapter

The Product

Lift and hold the transceiver cautiously, taking care particularly

not to damage the front Polycarbonate window.

Models

Table 1: Models of the TS5000

Models

Part Number

Description

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

TS5000/G

TS5000G/XYZ/V**

Standard Model

TS5000G/M8C/V1S

TereScope5000/G-F with buil-in Fusion, 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:

TS5000/G-F

TS5000G/XYZ/F**

Standard Model

TS5000G/M8C/F1S

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

¹TereScope 5000

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TereScope5000/155, 8 inch receiver Free

TS5000/155

TS5000/XYZ/V**

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/V1S

(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

TS5000/155-F TS5000/XYZ/F**

inch

receiver

Free

Space

Optics

Standard Model

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/M3C/F1S

TereScope5000/ETH, 8 inch receiver Free

Space Optics 1400m@30db/km and

TS5000/ETH

TS5000/4U1

TS5000/ETH/V*

TS5000/4U1/V*

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: AD-

5000, JMP-8 and JITK.

TereScope5000/4E1

TereScope5000/4T1

Space

Free

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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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)

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.

Receiver

Front view

Showing the receiver

side, the transmitters and

the telescope

Transmitter

CAUTION!

AVOID EXPOSURE –

INVISIBLE LASER

Transmitters

RADIATION IS EMITTED

FROM THIS APERTURE

Telescope

Figure 1.1: Front View Schematic

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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

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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 1 ON

L 2 ON

REDUNDANT

POWER SUPPLY

L 3 ON

DISCONNECT POWER SUPPLY

FROM MAINS

BEFORE REMOVAL FROM UNIT

This slot can

house an additional

power supply

TELESCOPE

DIP Switch

Toggles 4, 7

and 9

POWER

to be fed

from backup

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

voltage source.

This can be

positions are

immaterial.

HIGH VOLT.

AIR RX

FLAG

independent

of the primary

voltage source for

maximum redundancy.

For details:

OPTICAL POWER

SYNC

ALIGNMENT

LOOP

+/~

-/~

Not in use

Contact an authorized

MRV representative

or visit www.mrv.com

LOW VOLT.

REMOTE MONITOR

FUSION

HEATING

SW MODE

DS 2

DS 1

AVOID EXPOSURE

INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE

Pluggable

Power

Supply

Slot for

Redundant

MANAGEMENT

F I B E R O P T I C

FLAG

PS1

PS2 HEATER ON

SYNC

1-2 3-6

TABLE FOR DS 2

OFF

Normal

1,2

CAUTION

DO NOT USE

TELESCOPE

Alignment

Local Loopback

Remote Loopback

Normal

Mode Select

TO LIFT UNIT ! !

1,2

Attenuation for

Short Distance Link

Pluggable

interface

Attenuated

Disable

Fusion

Enable

Off

Window Heater

(if exist)

Default IP

Software IP

HW MODE

SW MODE

IP Address Setup

Control Mode

Telescope

1766240

Figure 1.3: TS5000/G Standard Model Panel Schematic

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Back Panel Description

Table 2: TS5000/G 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

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.

Remote Monitor

Management

Connection to an optional Remote Status Monitor

(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

Power

Telescope

For fine alignment.

Power Supply

Pluggable AC power supply (100 to 240 Vac) or

DC power supply (35 to 60 Vdc)

Slot for Power Supply 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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Selectors

(DIP Switch

DS1 Toggles)

-- shown on

Figure 1.3and

1.4

Not in use

Selectors

(DIP Switch

DS2 Toggles)

-- shown on

Figure 1.3 and

1.4

Mode Select

(Toggles 1, 2)

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 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)

Used only with the heating option (To be specified

in the PO).

(Toggle 6)

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^oC; 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.

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.

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I n s t a l l a t i o n M a n u a l

Indicators

Air RX Flag LED

Air RX Sync LED

Green LED indicates data received by the Airlink

receiver. Turns ON at the threshold level.

Yellow LED. Turns ON if the rate of the received

Data matches the Data Rate set on the Data Rate

DIP switch.

(7-segment

display and

LEDs)

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 7-

segment display

Digital readout indicates the Optical Power level

received by the Airlink receiver.

Alignment LED

Loop LED

Yellow LED. Turns ON if the Alignment

Operating Mode is selected.

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

Lasers status LEDs

Red LED. Turns ON if the SW Mode

(SOFTWARE) Operating Mode is selected.

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^oC; 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)

Flashing when the RSM-SNMP is connected and

the TereScope is transmitting management Data.

(There is no Link indication)

Management TX

Management RX

Flashing when the RSM-SNMP is connected and

the TereScope is receiving management Data.

(There is no Link indication)

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I n s t a l l a t i o n M a n u a l

B. TS5000/G-F (Standard Model including Fusion option)

LASERS STATUS

(BACK VIEW)

L 1 ON

L 2 ON

POWER SUPPLY

POWER

POWER SUPPLY

POWER

DIP Switch

Toggles 4,

7 and 9

positions

are

L 3 ON

TELESCOPE

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

immaterial.

HIGH VOLT.

AIR RX

FLAG

OPTICAL POWER

REMOTE MONITOR

SYNC

ALIGNMENT

LOOP

+/~

-/~

Not in use

+/~

-/~

LOW VOLT.

FUSION

HEATING

SW MODE

DS 2

DS 1

Redundant PS

AVOID EXPOSURE

INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE

Pluggable

Power

Supply

F I B E R O P T I C

MANAGEMENT

MAIN

REDUNDANT

FLAG

SYNC

FLAG

SYNC

PS1

PS2 HEATER ON

FOR FUSION

1-2 3-6

TABLE FOR DS 2

Normal

OFF

1,2

CAUTION

DO NOT USE

TELESCOPE

Alignment

Mode Select

Local Loopback

Remote Loopback

1,2

Pluggable

interface, with

Fusion option

TO LIFT UNIT ! !

Normal

Attenuation for

Short Distance Link

Attenuated

Disable

Enable

Fusion

Off

Window Heater

(if exist)

Default IP

Software IP

HW MODE

SW MODE

Telescope

IP Address Setup

Control Mode

1766240

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

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I n s t a l l a t i o n M a n u a l

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.

LASERS STATUS

(BACK VIEW)

L 1 ON

L 2 ON

REDUNDANT

POWER SUPPLY

L 3 ON

DISCONNECT POWER SUPPLY

FROM MAINS

BEFORE REMOVAL FROM UNIT

This slot can

house an additional

power supply

TELESCOPE

POWER

to be fed

from backup

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

voltage source.

This can be

HIGH VOLT.

AIR RX

FLAG

independent

of the primary

voltage source for

maximum redundancy.

For details:

OPTICAL POWER

REMOTE MONITOR

SYNC

ALIGNMENT

LOOP

+/~

-/~

Contact an authorized

MRV representative

or visit www.mrv.com

LOW VOLT.

FUSION

HEATING

SW MODE

DS 1

DS 2

AVOID EXPOSURE

INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE

MANAGEMENT

F I B E R O P T I C

FLAG

PS1

PS2 HEATER ON

SYNC

1-2 3-6

TABLE FOR DS 2

Normal

OFF

1,2

Alignment

Local Loopback

Remote Loopback

Off

Mode Select

CAUTION

DO NOT USE

TELESCOPE

TO LIFT UNIT ! !

TABLE FOR DS 1

Fast Ethernet 100Mbps

OFF

1,2

Alignment Signal

Attenuation

1,2,3,4

ATM/OC3/STM1: 155Mbps 2,3,4

1,2

Laser Enable

Laser Disable

Disable

SMPTE: 143 Mbps

E3: 34.368 Mbps

3,4

Laser Status

Fusion

1,2,4

1,3

2,3

1,2,3

2,4

1,4

T3: 44.736 Mbps

Data Rate

Enable

OC1/STM0: 51.840 Mbps

Customized 1

Off

Window Heater

(if exist)

1,3,4

1,2,3

Customized 2

Open Protocol

Default IP

Software IP

HW MODE

SW MODE

IP Address Setup

Control Mode

1766240

Figure 1.5: TS5000/155 Standard Model Panel Schematic

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I n s t a l l a t i o n M a n u a l

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

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.

Remote Monitor

Management

Connection to an optional Remote Status Monitor

(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

Pluggable AC power supply (100 to 240 Vac) or

DC power supply (35 to 60 Vdc)

Slot for Power Supply 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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Selectors

(DIP Switch

DS1 Toggles)

---shown on

Figures 1.5and

1.6

Data Rate

(Toggles 1, 2, 3 and clock).

Set the transmission rate of the transceiver (internal

- 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.

Selectors

Mode Select

(Toggles 1, 2)

Set the Operating Mode

(DIP Switch

DS2 Toggles)

-- shown in

Figures 1.5 and

1.6

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.

Alignment Signal

Attenuation

(Toggle 3)

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.

Laser Status

(Toggle 4)

Fusion

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).

(Toggle 5)

Window Heater

(Optional)

(Toggle 6)

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^oC; 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.

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.

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.

Control Mode

(Toggle 10)

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.

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I n s t a l l a t i o n M a n u a l

Indicators

Air RX Flag LED

Air RX Sync LED

Green LED indicates data received by the Airlink

receiver. Turns ON at the threshold level.

Yellow LED. Turns ON if the rate of the received

Data matches the Data Rate set on the Data Rate

DIP switch.

(7-segment

display and

LEDs)

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 7-

segment display

Digital readout indicates the Optical Power level

received by the Airlink receiver.

Alignment LED

Loop LED

Yellow LED. Turns ON if the Alignment

Operating Mode is selected.

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

Lasers status LEDs

Red LED. Turns ON if the SW Mode

(SOFTWARE) Operating Mode is selected.

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^oC; 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

Management RX

Flashing when the RSM-SNMP is connected and

the TereScope is transmitting management Data.

(There is no Link indication)

Flashing when the RSM-SNMP is connected and

the TereScope is receiving management Data.

(There is no Link indication)

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I n s t a l l a t i o n M a n u a l

D. TS5000/155-F (Standard Model including Fusion option)

LASERS STATUS

(BACK VIEW)

L 1 ON

L 2 ON

POWER SUPPLY

POWER

POWER SUPPLY

POWER

L 3 ON

TELESCOPE

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

USE COPPER CONDUCTORS ONLY

TORQUE VALUE 7 Lb-Inch

HIGH VOLT.

AIR RX

FLAG

OPTICAL POWER

SYNC

ALIGNMENT

LOOP

+/~

-/~

+/~

-/~

LOW VOLT.

REMOTE MONITOR

FUSION

HEATING

SW MODE

DS 1

DS 2

AVOID EXPOSURE

INVISIBLE LASER RADIATION IS EMITTED FROM THIS APERTURE

F I B E R O P T I C

MANAGEMENT

MAIN

REDUNDANT

FLAG

SYNC

PS1

PS2 HEATER ON

SYNC

FOR FUSION

1-2 3-6

TABLE FOR DS 2

Normal

OFF

1,2

Alignment

Local Loopback

Remote Loopback

Off

Mode Select

CAUTION

DO NOT USE

TELESCOPE

TO LIFT UNIT ! !

TABLE FOR DS 1

Fast Ethernet 100Mbps

OFF

1,2

Alignment Signal

Attenuation

1,2,3,4

ATM/OC3/STM1: 155Mbps 2,3,4

1,2

Laser Enable

Laser Disable

Disable

SMPTE: 143 Mbps

E3: 34.368 Mbps

3,4

Laser Status

Fusion

1,2,4

1,3

2,3

1,2,3

T3: 44.736 Mbps

2,4

1,4

Data Rate

Enable

OC1/STM0: 51.840 Mbps

Customized 1

Off

Window Heater

(if exist)

1,3,4

1,2,3

Customized 2

Open Protocol

Default IP

Software IP

HW MODE

SW MODE

IP Address Setup

Control Mode

1766240

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.

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I n s t a l l a t i o n M a n u a l

That’s what

happens when

the air channel

stops

IR = 100 Mbps or 1.25Gbps

Main

F/O

Redundant

Main

F/O

RF Transceiver

RF = 2-10 Mbps

Or 100Mbps

10/100 BaseT

STP

F/O

Redundant

Switch

10/100 BT

10/100TX-100FX

Media Converter

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. 40mV¹at 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 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. 110mV²for TS5000/155 and 60mV for TS5000/G.

Note: To activate the Fusion option, DIP Switch DS2 toggle 5 to the ON position.

_____________________________________________________

¹100mV for TS5000/155 Rev 3.0 and less

²200mV for TS5000/155 Rev 3.0 and less

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I n s t a l l a t i o n M a n u a l

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)

-4 to 24 dBm

Output Power:

Sensitivity:

-85 dBm

Operating Power:

110/220 VAC, 500/250

Interface:

Shielded RJ45

Specifications are subject to change at any time without

notice.

Figure 1.7b: TS & Fusion

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.

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I n s t a l l a t i o n M a n u a l

E. TS5000/ETH - Ethernet System

RJ45

Connector

Pluggable

Power

Supply

DIP Switch Toggles 1, 2, 4, 5, 6,

7, 9 positions are immaterial.

Telescope

Figure 1.8: TS5000/ETH Model Back Panel

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Back Panel Description

Table 4: TS5000/ETH Model Back Panel Controls, Interfaces, and Indicators

Power

Power source Terminal Block (Main or UPS).

AC power supply (100 to 240 Vac) or DC power

supply (35 to 60 Vdc)

Connectors

10Base-T

Copper interface (RJ45) for STP cables.

MDI-X connection.

Remote Monitor

Connection to an optional Remote Status

Monitor or to RSM-DC (for Dry Contact

connection) (not included in the standard

transceiver kit)

Management

(10baseT)

Connection to 10Base-T SNMP management

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

IP address set up

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.

This switch enables working with MRV’s Fusion

system. For additional info see page 8 Toggle

#10 OFF: Fusion Non Active:

Selectors (DIP

Switch

Toggles) --

shown on

Figure 1.8

Fusion

Toggle #10 ON: Fusion active.

Note: Pins (4,5) of the main RJ45 connector can be used for dry contact purposes, for

Airlink flag alarm.

Air RX Link LED

Air RX Data LED

10Base-T Link LED

Green LED indicates that a signal is received by the

Airlink receiver. Switches ON at the threshold level

Indicators

(7-segment

display, LEDs)

Yellow LED indicates Data transfer through the

Airlink receiver

Green LED indicates a signal is received by the

10BaseT interface. Switches ON at the threshold

level

10Base-T Data LED

Yellow LED indicates Data transfer through the

10BaseT interface

Optical Power 7-

segment display

Digital readout indicates in mV the Optical Power

level received by the Airlink receiver

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I n s t a l l a t i o n M a n u a l

F. TS5000/4U1 - 4E1 or 4T1 System

DIP Switch

Toggles 1-7, 9,

10 positions

are immaterial.

Pluggable

Power

Supply

Telescope

Figure 1.9: TS5000-4U1 Model Back Panel

Back Panel Description

Tributary DIP Switches

Table 5: 4E1/4T1 Back Panel Controls, Interfaces, and Indicators

Power

Power source Terminal Block (Main or UPS).

AC power supply (100 to 240 Vac) or DC power

supply (35 to 60 Vdc)

Connectors

4 Data Connectors

Remote Monitor

4xCopper interface. Four green universal

connectors A to D to be used with coax or STP

cables.

Connection to an optional Remote Status Monitor

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.

Management

(10baseT)

Dry Contact

6 dry contact outputs:

1 for each interface port (total of 4)

1 for air-link flag

1 for air-link sync

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AirLink Flag

Airlink Sync

Green LED indicates that a signal is received by the

Airlink receiver. Switches ON at the threshold

level.

Yellow LED indicates that the air signal received

from the opposite side is synchronized with the

local transceiver. LED switches ON when two

transceivers are synchronized.

Indicators

(7-segment

display, LEDs)

Tributary Link LEDs

4 yellow LEDs. Every LED indicates a signal is

received by the electrical interface in its channel.

LED switches ON when an outside signal is

received.

The channels are numbered from A to D.

Digital readout indicates in mV the Optical Power

level received by the Airlink receiver

Optical Power

IP address set up

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.

Selectors

(Upper DIP

Switch

Toggles) --

shown on

Figure 1.9

Line coding

(Toggle No 1)

Receive

Sensitivity

(Toggle No 2)

Use to select the Coding mode:

Selectors

AMI or HDB3 for E1 or B8ZS for T1.

Use to select Long Haul or Short Haul. Depends

on the length of the used cable: For the length of

less than 200 m, select Short Haul, for the length

over 200m, select Long Haul.

(Lower DIP

Switch Toggles

A to D) --

shown on

Figure 1.9

(All DIP switch

toggles A to D

can be set

Mode of Operation

(Toggles 3& 4)

Sets the Operating mode:

LOCAL LOOP = Loops the electrical RX to the

electrical TX and Optical RX to the optical TX

REMOTE LOOP =Loops the electrical RX to

the electrical TX and optical RX to the optical TX

of the remote unit.

separately.)

NORMAL = Signal received through the electrical

RX is transmitted through the Airlink TX to

opposite RX. Signal received through Airlink RX is

transmitted through the electrical TX (Normal =

3& 4 OFF).

Impedance

(Toggle 5)

Used to match the cable impedance.

For E1 75R or T1 100R – ON position

For E1 120R – OFF position

Dip switch setting

Every DIP switch is set up for the channel above it.

Table 6: Lower Dip Switches Setting

Switch

Line coding

Receive

Operation Mode

Impedance

Position

Sensitivity

E1: 75 Ω

T1: 100 Ω

Local

Loopback

Remote

Loopback

OFF

AMI

Long Haul

E1: HDB3

T1: B8ZS

T1: Limited LH

E1: Short Haul

Normal

E1: 120 Ω

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Loop and Remote Loop Operation Mode

Loop

In this state, the device performs a loop on the twisted pair through the Line

Interface, as well as another loop from AIR RX to AIR TX.

LocalLoopback

The device on the side of the technician is in LOOP state when dipswitch “1”

is “ON” and Dipswitch “2” is “OFF” (for 4 E1: Dipswitch 3 ON & 4 OFF).

RemoteLoop

The device on the opposite side turns to loop state by being controlled from

the near device (Master) – dipswitch “2” in “ON” and dipswitch “1” is “OFF”

(for 4E1: Dipswitch 4 ON and Dipswitch 3 OFF).

In the opposite device (Slave), both dipswitches – 1 and 2 – should be “OFF”

(Normal)(for 4E1 Dipswitches 3&4 OFF).

When turning off the Master, the Slave exits Loop state.

When the Slave does not receive an optical signal for the duration of 0.8

seconds, it exits Loop state. In this situation, when electronic Reset was not

performed on Master, the technician should shut off the device and reactivate

it.

Heating

All our TereScope systems are designed with our special internal air circulation

feature, based on dissipation of the power supply heat. This prevents the

formation of condensation on the lenses under all weather conditions without

the need for additional heating at low temperatures

Front window

Example for air circuit.

Heating area

Holes for ventilation

Figure 1.10: Illustration of the air circulation in the TS4000 and TS5000 products

In spite of the aforesaid, an optional front window with the heating system

can be ordered separately (p/n TSX000-HEAT for a link). We recommend

this solution only for extremely adverse weather conditions such as heavy

snow with strong wind or high humidity.

The dissipated heat of about 25W creates a differential of about 10^obetween

the glass and the environment. The Heating is controlled by a Switching and

control circuit

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Monitoring and Management options

The TS is manageable by using

SNMP option. SNMP monitoring can

be performed via MegaVision,

MRV’s SNMP software.

1 - Management

RJ45

Connection for

SMNP

Interface

Figure 1.11a: SNMP + TS.

Figure 1.11b : Megavision interface

2 - Dry contact

The TS can be connected to

dry contact box (RSM-DC).

The RSM-DC is directly

attached to TS.

RSM-DC

Figure 1.12: RSM-DC + TS

3 - RSM

RSM

The TS can be connected to

monitoring unit: RSM. The

connection between the TS and the

RSM is made with 7 wires twisted

cable.

RSM connection

Figure 1.13: RSM + TS

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Typical Connection

1 - Fiber Connection

In order to implement a connection, each transceiver must be connected to the

peripheral/testing equipment through fiber optic cables. A correct connection is

notified by the display on the back panel of the transceiver (see the section Display

and Results pages 37 - 38).

IT IS A CROSS CONNECTION:

TX ꢂRX AND RX ꢂTX

Scheme of the Connection

to peripheral equipment

Peripheral/Testing

Equipment

Peripheral/Testing

Equipment

TX RX

RX TX

IR link

UWIN

Figure 1.14: Typical Connection for Models 155 and 155-F

2 - Copper Connection

In order to implement a connection, each transceiver must be connected to the

peripheral/testing equipment through a 2 pairs STP cable. A correct connection is

notified by the display on the back panel of the transceiver (see the section Display

and Results pages 37 and 38).

Scheme of the Connection

to the peripheral

equipment

Peripheral/Testing

Equipment

Peripheral/Testing

Equipment

10BaseT

STP

cable

STP

cable

IR link

_UT_WS_IN

UWIN

Figure 1.15: Typical Connection for Models ETH and 4U1 (4E1 or 4T1)

For 4E1/4T1 the 4 channels (or less as required) are to be connected separately.

When testing the model 4U1 (4E1 or 4T1), the matching ports on the two TS5000

heads must be connected, for e.g, if Channel A is connected on one head, Channel

A must be connected on the other head as well.

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Chapter

Site Survey

The first step before every installation is to visit the sites to be

linked. This in order to make sure that the connection is feasible,

to find out potential obstacles or difficulties and to decide on the

location and mounting points of the transceivers

Line of Sight

An imperative condition for linking two distant buildings is that the two mounting

sites must be within a clear sight of each other.

Pay attention to:

ꢃ

Growing vegetation and increasing

foliage during spring

ꢃ

Building sites (cranes movements, ...)

Chimneys (drained away smokes could

block the beam from time to time).

Orientation

As direct sunlight could overload the airlink receiver and generate its saturation,

avoid as far as possible the East to West path link.

Note

In case this is not possible the surrounding buildings could shield the

transceiver from the direct sunlight otherwise outages lasting several

minutes (depending on the time of the year and the angle of the sun)

could occur. The system will fully recover once the sun is out of the

receiver field of view.

Location & Range

1. The mounting of the transceiver must be extremely rigid

(preventing the installation from twists of 1 mrad). The key to

the required rigidity is to attach the mounting accessories on

strong mounting points such as:

- Stiff building structures

- Concrete or reinforced concrete surfaces

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⁽¹⁾In case such situations

could not be bypassed, special

mounting accessories and

techniques must be designed

and considered (see section

Particular Figure

Prefer

Avoid

Pay attention to

Colored windows

Double glazing

The proximity of power

radio antennas

Concrete Parapet

Structural wall or

column

Old constructions

Soft material (asphalt, etc.)

Non-uniform surfaces

Wooden and metal

structures

Cases\Techniques page 45)

For reasons of convenience, it is always preferable to install the

units indoors as long as all the required conditions previously

described are satisfied and the customer/building owner allows

it. However, when windows are present in the beam path, the

attenuating factor of the glass must be considered regarding the

distance and the required fade margin.

Referring to the data in Appendix A: Product Specifications, set and

record the distance between the two TereScopes of the link. (You can

use any of the following equipment to determine the distance:

rangefinder laser binoculars, GPS receiver, maps...)

ꢄ

Noting that two TereScope units are required per link, record the

quantity of each model of the TereScope required.

Record the bearing to the opposite site by compass.

Record the number of links to be installed at the site.

Note whether additional sheltering is needed for the TereScope, for

e.g., against strong winds (120km/h or more)

CONSULT FACTORY IN CASE OF DOUBT!

Figure 2.1 and Figure 2.2 show optimal and acceptable locations for the

TereScope links. Notice that in both figures the TereScopes are mounted on

rooftop edges and high enough above the ground.

TereScope mounted at corner of

leading edge of structure.

Figure 2.1: Optimal Mounting

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TereScope at edge of roof so

that heat rising from roof

surface does not affect beam

Beam path more than

4.5 m (15 ft) above

surface to avoid traffic

and rising heat.

Figure 2.2: Acceptable Mounting

Figure 2.3 shows an unrecommended TereScope link location because of

interference by IR. Notice that the TereScopes are mounted far from the rooftop

edges or are too close to the ground.

TereScope not at edge of roof.

Less than 4.5 m (15 ft) between beam

path and heat-emitting surface.

TereScope not at edge of roof.

Beam path passes too close to ground. Heat rising causes scintillation.

Allow 4.5 m (15 ft) between ground and beam path.

Figure 2.3: Unrecommended Mounting

Figure 2.4 shows an unacceptable TereScope link location because of interference by

passing vehicles. Notice that the TereScopes are mounted far from the rooftop

edges and not high enough above the ground.

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Figure 2.4: Unacceptable Mounting

Mounting Environment & Stability

When deciding the mounting location, you should look on the rooftop

for vibration sources such as compressors, elevators, motors, and try to avoid

them.

Photograph the mounting location so as to select the best mounting

option.

Figure 2.5 shows mounting locations on a rooftop in descending order of

preference. Location 1 is the best; location 7 is the worst.

Figure 2.5: Mounting Locations in Order of Preference

Note: If the only option to mount the TereScope is at points 5, 6 or 7, it has to be mounted at least 2 m above the rooftop to ov

the roof scintillation and eventually have people crossing the link beam (If possible, avoid placing the TereScope on the mast).

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Avoid surfaces with high reflectivity (e.g., white walls) behind the

TereScope so as to reduce interference with the optical signal.

Get customer approval for the exact positions where the TereScopes will

be mounted. Using paint, mark these positions.

Note the height that each TereScope will be above or aside the rooftop.

Identify the floor or wall type and dimensions of the location at which

the TereScope is planned to be mounted.

For each TereScope unit, select one of the following mounting options

and record it.

Parapet/Ledge Mounting (Figure 2.6) – This is a standard

mounting option that uses only the Plate (JMP).

Wall Mounting (Fig. 2.8) – This is a standard mounting option

that uses the Plate (JMP) as well as the two Brackets (JMB).

Floor Pedestal Mounting (Figure 2.7) – This is a non-standard

mounting option that uses the Plate (JMP) as well as a Floor Pedestal (e.g.,

M015C).

Wall Pedestal Mounting (Figure 2.9) – This is a non-standard

mounting option that uses the Plate (JMP) as well as a Wall Pedestal (e.g.,

M054C).

Extended Wall Mounting (Figure 2.10) – This is a non-

standard mounting option that uses the Plate (JMP) as well as an Extended

Wall (e.g., M062C).

f. Angle Bracket Mounting (Figure 2.11) – This is a non-

standard mounting option that uses the Plate (JMP) as well as an

Angle Bracket (e.g., M001).

Figure 2.7: Floor Pedestal Mounting (using JMP and

MO15C)

Figure 2.6: Parapet/Ledge Mounting (using JMP only)

Figure 2.8: Wall Mounting (using JMP and JMB)

Figure 2.9: Wall Pedestal Mounting (using JMP and

MO54C)

²For more information on these mounting options, refer to TereScope Installation Guide (Publication No.

46366).

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Figure 2.10: Extended Wall Mounting (using JMP and

MO62C)

Figure 2.11: Angle Bracket Mounting (using JMP and

M001)

Transmitting through a Window

1. Determine the number of surfaces the beam transits or is reflected

from,

condensation/precipitation collection areas.

the

reflectivity

each

surface,

and

2. Use the data below to determine whether the light beam

attenuation is acceptable.

4% attenuation for each surface of light reflection.

15% attenuation for a double pane window.

Attenuation due to tint in windowpane must be taken into

consideration in choosing the right TereScope model. (The %

attenuation depends on the tint and must be measured.)

3. Ensure that the angle of incidence³of the beam striking the

windowpane is between 1º and 45º.

Note

On high buildings, for indoor window installation, the user should consider

that occasionally the window-cleaning elevator might block the link beam.

Figure 2.12 shows the arrangement for transmitting through a window

Figure 2.12: Arrangement for transmitting through a window.

²Angle which the light beam makes with the perpendicular to the windowpane

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Chapter

Infrastructure

The only infrastructure required for operating the transceiver and

linking the sites is Power and Data/Signal connection to the

peripheral networking equipment. This must be ready prior to the

airlink installation.

IN OUTDOOR INSTALLATIONS, USE SHIELDED AND

WEATHERPROOF MATERIALS (CABLES, INLETS, AND

CONNECTORS) COMPLIANT TO THE SAFETY STANDARD IN

FORCE.

ꢀ

Power

Source

The power requirement for standard units is 100-240VAC @

50/60Hz - 22W.

Note: Units requiring low Voltage: 35-60VDC - 22W can be factory

set upon request.

It is recommended to use Surge Suppression System to avoid

the damage to the equipment when power supply is unstable.

Protection should be at least 25,000A min.

Cabling

Standard 3 conductors power cord are required. (See Safety

requirements, Page iv)

Data/Signal Cabling

1. ForTS5000/G, TS5000/G-F, TS5000/155andTS5000/155-F

Type

For connecting the Transceiver to the peripheral equipment two optical

fiber cables are required (one for the transmission and one for the

reception). The standard recommended cable is a 62.5/125 μm for MM

fiber and 9/125 μm SM fiber, according to transceiver type used.

Connectors

Each fiber should be terminated with the ordered type of connector on the

transceiver end (SC, ST….).

Optical Fiber testing.

The cabling installer must specify the attenuation of each fiber installed.

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A simple power loss test can inform us about the condition of the fibers.

This test consists of measuring with an optical power meter the output

power at one end of the tested fiber as at the other end a fiber source is

connected. If the values are in dBm, the difference between the input

power and the output power gives the power attenuation of the fiber (in

dB).

Fiber Optic

Cable

Peripheral

Equipment

F/O

dBm

Optical Source

Optical Power Meter

Figure 3.1: F/O cable test.

In case the above equipment is not available, a simple visual test may be

performed to locate and reject badly damaged fibers. Place near one end of

the fiber a light source and block alternatively the termination, you must

observe the light coming out of the other end. (This procedure does not

guarantee that a fiber is acceptable)

ꢅ

A standard 62.5μm fiber optic cable is characterised by an

attenuation factor of around 3 to 5dB/km. Then a loss value of more

than 3dB for runs up to 200m can indicate a suspect fiber.

Note

The fiber optic cables must be installed by a specialist.

HANDLE THE FIBERS VERY CAREFULLY.

2. ForTS5000/ETH

ꢀ

Type

For connecting the Transceiver to the peripheral equipment a 2 pairs STP

cable is required (one pair for the transmission and one for the reception).

This cable must be a straight one when the peripheral has an MDI-X 10

Base T interface and a Gross one otherwise.

Connectors

The cable should be terminated with an RJ-45 connector on the

Transceiver end.

3. ForTS5000/4U1(4E1or4T1)

Type: For connecting the Transceiver to the peripheral equipment a 2

pairs STP cable is required (one pair for the transmission and the other for

the reception) for each E1 or T1 connection.

Connectors A special connector is provided by MRV to connect the

twisted pair cables to the TS.

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Chapter

Bench Test

It is always easier and more convenient to locate a failure and

solve a problem in a lab on a bench than on a roof under bad

conditions.

It is then strongly recommended, as the

circumstances allow it, to perform a bench test with all the

modules prior to the installation in order to check the equipment

compatibility and to validate the configuration.

See Unpacking Instructions in Appendix C.

1 -TS5000/G&TS5000/G-F

Compatibility

Peripheral equipment

Check the operating of the peripheral equipment connecting them through cables

(see Configuration 1 below).

Interfaces

Check the specifications compatibility (type, wavelength, receiver range, output

power, data rate) between the TereScope and the peripheral equipment interfaces.

Testing equipment

Chose an appropriate BER (Bit Error Rate) tester for checking the physical link

quality. A portable one is preferred for convenient use in the field.

For example: A smartbit Giga Ethernet tester.

A ping test or a file transfer between two workstations - connected to the

networking equipment - is useful and easy to implement for testing the

performance of the whole configuration.

Setup

Dip-switch

Set all the DIP switch toggles to the OFF position for normal operation.

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2 -TS5000/155 &TS5000/155-F

Compatibility

Peripheral equipment

Check the operating of the peripheral equipment connecting them through cables

(see Configuration 1 below).

Interfaces

Check the specifications compatibility (type, wavelength, receiver range, output

power, data rate) between the TereScope and the peripheral equipment interfaces.

Testing equipment

Chose an appropriate BER (Bit Error Rate) tester for checking the physical link

quality. A portable one is preferred for convenient use in the field.

For example: the OC3port plus SONET and ATM analyser manufactured by

Fluke.

A ping test or a file transfer between two workstations - connected to the

networking equipment - is useful and easy to implement for testing the

performance of the whole configuration.

Setup

Data Rate DIP Switch Toggle

According to the application in use, set the switch DS1 toggles as indicated in the

following table:

Table 7: DIP Switch Setting for TereScope

Function

TS5000/155

OFF

Fast Ethernet

1,2,3,4

2,3,4

–

ATM/OC3/STM1: 155 Mbps

SMPTE 143 Mbps

1,2

3,4

1,2,4

2,4

1,4

E3:34.368 Mbps

T3:44.736

OC1/STMO:51.840 Mbps

Customized 1

Customized 2

Open Protocol

1,3

2,3

1,2,3

1,3,4

1,2,3

Mode Select DIP switch toggle

Set DIP switch toggles 1, 2 and 4 to the OFF position for normal operation.

3 -TS5000/ETH

Compatibility

Peripheral equipment

Check the operating of the peripheral equipment connecting them through cables

(see Configuration 1 below).

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Interfaces

Check the specifications compatibility (type, data rate) between the TereScope and

the peripheral equipment interfaces.

Testing equipment

Chose an appropriate BER (Bit Error Rate) tester for checking the physical link

quality. A portable one is preferred for convenient use in the field.

A ping test or a file transfer between two workstations - connected to the

networking equipment - is useful and easy to implement for testing the

performance of the whole configuration.

Setup

Dip-switch

Set all the DIP switch toggles (other than 8 and 10 which are for SNMP

management and Fusion) to the OFF position for normal operation.

4 -TS5000/4U1

Compatibility

Peripheral equipment

Check the operating of the peripheral equipment connecting them through cables

(see Configuration 1 below).

Interfaces

Check the specifications compatibility (type, standard compliance) between the link

and the peripheral equipment interfaces.

Testing equipment

Chose an appropriate BER (Bit Error Rate) tester for checking the physical link

quality. A portable one is preferred for convenient use in the field.

Dip-switch Setup

• Main Dip-Switch: Set all the DIP switch toggles (other than 8 and 10

which are for SNMP management and Fusion) to the OFF position

for normal operation.

• Dip switch under the port in use: - switches 3&4 OFF for normal

operation.

- Line coding (AMI or HDB3) – Toggle 1.

- Receive Sensitivity (Short/Long Haul) – Toggle 2.

- Impedance (75 ohm/120 ohm) – Toggle 5.

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Test Configurations

IN ALL THE FOLLOWING CONFIGURATIONS TAKE CARE TO ADJUST

THE TRANSCEIVERS OUT OF SATURATION, ALIGNING THEM

SLIGHTLY IN AN ANGLE SO THAT THE DIGITAL READOUT SHOWS A

READING LOWER THAN 1200 BUT HIGHER THAN 100.

ꢀ

Bench test

To learn more about TS Bench Test please refer to Appendix E.

Configuration 1: (Applicable without TereScope)

Peripheral equipment

and cable testing

Peripheral/Testing

Equipment

Peripheral/Testing

Equipment

RX TX

Cables

Configuration 2: (Applicable to all models)

One way Airlink

BER test

BER Tester

TX RX

IR link

UWIN

Configuration 3: (Applicable to all models)

Loop-back Airlink

BER test

BER Tester

RX TX

IR link

UWIN

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Configuration 4: (Applicable to models G, G-F, 155, 155-F, and ETH)

Whole configuration

operating test (Ping test

or File transfer) for

Ethernet or Fast

Peripheral

Equipment

Peripheral

Equipment

TX RX

RX TX

Ethernet systems

Workstation

IR link

UWIN

Configuration 5: (Applicable to all models)

Whole configuration

operating test for all

models

Peripheral/

Testing

Equipment

Peripheral/

Testing

Equipment

STP

cable

STP

cable

IR link

TereScope

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Display and Results

TS5000/G &TS5000/G-F

Proper Display

1. Indicators

AIR RX

F/O RX¹

Management²Align. Loop Fusion³Heating⁴

Lasers Status

L1 to L3⁶

Indicator →

Mode⁵

Flag Sync TX

Position ↓

OFF

Table 8: Indicators

Notes

1 - In case the tested TereScope has a Fusion option, the LEDs of the redundant F/O should be

switched off if the backup is inactive.

2 – TX LED Flashing when the RSM-SNMP is connected and the TereScope is transmitting

management Data. (There is no Link indication)

RX LED Flashing when the RSM-SNMP is connected and the TereScope is receiving management

Data. (There is no Link indication)

3 - This LED switches ON, when the fusion option is enabled. It starts blinking, when fusion is

active, i.e. when the IR link stops operating and the back-up link becomes active.

4 - This LED switches ON only when there is a heating option. The heating is activated by moving

the DIP Switch toggle # 5 to ON position.

5 - When the RSM-SNMP is connected and you choose to control the TereScope by software

(Megavision), move the DIP Switch #10 to ON position and this LED will switch ON.

6 - L1 is OFF if Dip switch toggle #3 is on ON position

2. Received power

100 < OPTICAL POWER < 1000

Expected Results

The BER must be less than 10E-12 (10^-12) for on-going tests and error-free for

short tests.

The PING test and file transfer procedure should not notify any TIME OUT alarm

or last too long time compared to cabling connection.

TS5000/155 &TS5000/155-F

Proper Display

1. Indicators

AIR RX

Flag Sync Flag Sync

F/O RX¹

Management²Align. Loop Fusion³Heating⁴

Lasers Status

L1 to L3

Indicator →

Mode⁵

Position ↓

OFF

Table 9: Indicators

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Notes

1 - In case the tested TereScope has a Fusion option, the LEDs of the redundant F/O should be

switched off if the backup is not connected.

2 – TX LED Flashing when the RSM-SNMP is connected and the TereScope is transmitting

management Data. (There is no Link indication)

RX LED Flashing when the RSM-SNMP is connected and the TereScope is receiving management

Data. (There is no Link indication)

3 - This LED switches ON, when the fusion option is enabled. It starts blinking, when fusion is

active, i.e. when the IR link stops operating and the back-up link becomes active.

4 - This LED switches ON only when there is a heating option. The heating is activated by moving

the DIP Switch toggle # 5 to ON position.

5 - When the RSM-SNMP is connected and you choose to control the TereScope by software

(Megavision), move the DIP Switch #10 to ON position and this LED will switch ON.

2. Received power

100 < OPTICAL POWER < 1000

Expected Results

The BER must be less than 10E-12 (10^-12) for on-going tests and error-free for

short tests.

The PING test and file transfer procedure should not notify any TIME OUT alarm

or last too long time compared to cabling connection.

TS5000/ETH

Proper Display

Indicators

Lasers Status

L1 to L3

AIR RX

10 Base-T

Link Data

Indicator →

Position ↓

Link

Data

OFF

Blinking

Table 10: Indicators

2. Received power

100 < OPTICAL POWER < 1000

Expected Results

The BER must be less than 1E-9 for lasting tests and display NO ERRORS for

brief ones.

The PING test and file transfer procedure should not notify any TIME OUT alarm

or last too long time compared to cabling connection.

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TS5000/4U1 (4E1 or4T1)

Proper Display

Indicators

Tributary

Channels

A to D

Lasers Status

AIR RX

Indicator →

Position ↓

L1 to L3

Link

Sync

(for the connected

port)

OFF

(for the not

connected port)

Table 11: Indicators

2. Received power

100 < OPTICAL POWER < 1000

Expected Results

The BER must be less than 1E-9 for lasting tests and display NO ERRORS for

brief ones.

Note: When placing the two TS5000 face to face you need to do:

1. Cover with a tape two of the three transmitters, leaving only one

transmitter free. Recommended distance for bench test is between

1.5 to 2m’ apart.

2. Before doing the BER test you have to verify that there are no

“reflections” from the front window: Shut down the power from

unit A and make sure that the RSSI value on unit B drops to “000”

or to the levels that the “Air RX” LED is OFF. Do the same

shutting down unit B. if you have RSSI reading when shutting

down one of the units, you need to fine align it until you get RSSI

value of “000” or the “Air RX” LED to OFF position.

3. Only when part 1 & 2 are done you can start the BER test of file

transfer test.

SNMP Management Setting and Operation

General: Given the small amount of information and parameters that the SNMP agent

module of the FSO product line deals with, the card has a moderate memory size and CPU

type. If the management Ethernet port is connected to a network with higher rate of broadcast

and multicast traffic, slow SNMP management response of the FSO may occur.

Recommendation:

The recommended solution for this symptom is to isolate the Switch port connecting the FSO

SNMP management module to the network from the network traffic by assigning it to a

dedicated VLAN usually used for network management. If possible also limit the ingress

broadcast rate to that specific port.

To set a new IP address, please refer to the “IP address setting procedure for TereScope

management card” file in the Manuals CD

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Chapter

Installation

This chapter deals with the mounting of the hardware and the

unit on the site (see Appendix D for the required material).

See Unpacking Instructions in Appendix C.

CAUTION: Unit to be mounted in horizontal position only. Max angle 45^o

Accessories

The standard mounting accessories are supplied with the transceiver in a kit. They

are designed for typical mounting on horizontal and vertical surfaces.

ꢄ

Description

The accessories kit (supplied by MRV) consists of :

The Mounting Plate (JMP-8)

The Alignment Device (AD-5000)

The Installer Tool Kit (JITK-8)

The JMP-8 is used for mounting the transceiver on the support surface. (i.e. to a

horizontal concrete surface/plate only) the JMP-8 is not fit to the MRV standard

mounting brackets, if needed to mount it on MRV standard mounting brackets,

attach the AD5000 base plate directly to the mounting bracket top plate without

the JMP-8

The AD-5000 allows the aiming of the two units making the link (see chapter 6)

JMP-8

Mounting Plate

(dimensions in mm)

A: Screw for

grounding

Dimensions in mm

Figure 5.1a: JMP-8

Figure 5.1b: JMP-8

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CAUTION!

Do not touch this screw (K)

CAUTION!

Do not touch this screw (K)

J-L-3

J-R-3

J-L-2

AD-5000

Alignment Device

for TS5000 systems

J-R-2

Enforced Base

Plate

Alignment Scale

JMP-8

Fig. 5.2: Alignment device (AD-5000) + JMP-8

Fig. 5.3: Back

Fig. 5.4: Front

Fig. 5.5: Right

Fig. 5.6: Left

Right-Left fine alignment knob

Up-Down fine alignment knob

Locking screws between AD-5000 & JMP-8

Horizontal aiming locking screws

J-R Vertical Aiming locking screws (Right side)

J-L Vertical Aiming locking screws (Left side)

Vertical aiming axis

Coarse alignment screw

M Red reference point

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Alignment Knobs

The Fine Alignment mechanism of the TS5000 is fragile and must therefore be

handled gently. On the AD-5000 and under the alignment knobs are scales

that aid the installer in easily and quickly performing optimal alignment. Each

full turn of a knob rotates the head of the TS5000 by an angle of 2.15 mrad.

Accordingly, a turn equal to a turn from one number to the next rotates the

head by 0.18 mrad, and a turn equal to a turn from marking to the next rotates

the head by 0.09 mrad.

Alignment Scale

Fig. 5.7: View on Alignment Knobs

The Installer Tool Kit (JITK-8)

JITK: Installer Tool

Kit

The JITK-8 tool kit includes the work tools required for opening and closing

nuts and screws of the TS5000 for optimal installation. It is recommended that

these tools be used. MRV supplies this tool kit with each TS5000 head. In

addition to the tool kit, screws are supplied for mounting the JMP-8 and AD-

5000 on a pedestal that is supplied by MRV as an option.

Fig. 5.8: JITK: Installer Tool Kit

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Mounting

1- Accessories

•

Horizontal surfaces (parapet, ...):

Figure 5.9: JMP on the fixation surface

THE JMP SHOULD BE ORIENTED IN SUCH A WAY THAT THE GROUNDING

SCREW IS LOCATED ON THE BACK (CLOSE TO THE INSTALLER) AND THE

FRONT IS FACING THE OPPOSITE SITE.

ꢄ

2- Attachment of the Transceiver (TS)

In order to place the Transceiver in the right place on the swing base, direct

and insert three screw heads from the bottom of the box to three bigger holes

on the swing base

TS5000

Head

G: Screws from the

bottom of the box

AD-5000

Swing Base

JMP-8

Fig. 5.10: Mounting TS5000 on Alignment Device

Screw 4 screws (M6x30mm x ½” length) with the spring washers to fix the

transceiver on the swing base. These 4 screws should be locked tightly with

the help of appropriate tools.

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CAUTION!

Do not open Screws G.

S: TereScope

Grounding Screw

Fig. 5.11a: Bottom view: Locking screws (H) between TS and alignment device

H: Locking screws

between TS &

alignment

device

Fig. 5.11b: Locking the screws between TS and alignment device

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Particular Figure Cases/Techniques

Mounting on the floor

In some cases the only place where the installation is acceptable, possible or

authorized is on the floor (for example on a roof without any parapet or if the

parapet is metallic ...). In such situations drilling holes on the floor is out of the

question.

The principle consists in fixing in a very stable way a tower standing on the floor.

The transceiver will be attached on the top of the tower.

Two techniques using a small concrete block are suggested for stabilizing the tower

on the floor.

•

The concrete slab is directly poured on the basis of the tower

Four bolts are inserted in the concrete slab placed on the floor. The tower

mount is fixed on the slab with the inserted bolts using nuts.

Transceiver

JAH

JMP

Tower Mount

Concrete Slab

Floor

Figure 5.12: Mounting on a concrete slab

TAKE CARE TO REMOVE ANY INTERVENING SOFT

MATERIAL, SUCH AS ASPHALT, BETWEEN THE SLAB/TOWER

BASIS AND THE FLOOR. ONCE THE INSTALLATION IS

COMPLETED RESTORE THE ROOF WATER-TIGHTNESS WITH

A SEALING MATERIAL AROUND THE SLAB.

ꢀ

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Chapter

Aiming Procedure

Point to point connections require the orientation face to face of both “transceiving” ends

of the link. Concerning wireless optical links this should be done as accurate as possible

for positioning the beam symmetrically all around the remote receiver.

Powering on the TereScope

4 – After connecting the power cables to corresponding

sockets, tightly close the screws of the Terminal block –

see Figure 6.4. Gently jerk the cable to check that it stays

connected. Cover the Terminal Block with plastic cover (if

available).

1 – Make sure that the power cable is disconnected

from the electrical power source.

2 – Remove the Back Door by undoing the four

screws I (two on each side – see Figure 6.1.)

'I' Screws

Fig. 6.1: Screws I

3 – Connect the wires of the power cable (see Figure 6.2)

to the Terminal Block (see Figure 6.3) paying attention to

L=Line, G=Ground & N=Neutral.

Fig. 6.4: Power Terminal Block Locked

5 – Cover the Terminal Block with the power supply

cover.

Power

Cable

'N' Screws

Fiberoptic

Cable

Power Supply

Cover

Fig. 6.2: Power cable Fiberoptic cable, and ‘N’

Screws

Fig. 6.5: Power Supply Cover

6 – Connect the power cable to the electrical power

source to power on the TereScope.

Fig. 6.3: Power cable & Terminal block

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Transceiver Alignment

Successful installation of the TereScope depends primarily on precise and accurate optical

alignment. Carefully follow the instructions below!!!

Important: Handle the Telescope with great care since it is the main tool for fine

alignment.

Turn on the power to the TS5000 heads from the power source.

Models G and G-F: Set DIP switch toggles 1,2 to the “Alignment” position (indicated on

the back panel).

Models 155 and 155-F: Set DIP switch toggles 1,2 to the “Alignment” position (indicated

on the back panel). If the installation distance is less than 900m it's recommended to

attenuate the signal for the alignment process, by pushing to ON position the toggle #3 of

dip-switch DS2. Caution: Switch back to OFF position for normal mode operation.

Models ETH and 4U1: Even if the data port is left unconnected, the TS5000 transmits

an Idle Signal which can be used to perform alignment.

The ttransceiver alignment procedure is implemented in two stages:

−

Coarse Alignment

Fine Alignment

Action

Screws Position

Description

Notes

Rotate the transceiver

left and right, up and

down holding it by the ensure the

Before starting

coarse alignment

1. Coarse

Alignment

All the screws are open (J, L, E, D)

box and looking

following:

Caution! Do not touch these screws.

through the telescope

till you can see the

opposite site. If the D

1) Screws E are

positioned in the

middle of the

J-L-3

J-R-3

J-R-2

J-L-2

screws prevent further slots. This can be

rotation, screws D can done by turning

be reassembled in the

nearby holes.

knob B.

2) The Red Ref.

point M is

Swing Base

If it is difficult to see

positioned so that

the opposite site due to its distance from

the distance or haze, the movement

make sure at this stage range end closer

(Red Ref.

Point)

that the transceiver is

powered on and then

rotate the transceiver

to the right and to the

left, up and down,

moving it slowly till

the receipt of a certain

DVM reading

to the front panel

is about 1/3 the

total movement

range. This can

be done by

turning knob C.

(4 Screws)

Fig 6.6: JMP-8 and AD-5000

(minimum 20-30).

Front

(far side)

Note: Knobs B and C are in the back of the TS5000.

Finishing

Screws D & L are closed.

Tighten screws D & L.

coarse

alignment

CAUTION! Do not turn alignment knobs B and C when the fine horizontal aiming screws E and the

coarse vertical aiming screws J and L are locked since this may damage the fine alignment mechanism.

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E, J – opened.

L,D - closed

1) Open screws J-L-1,

J-L-2, and J-L-3 1 to

2 turns.

2. Fine

Alignment

2) Tighten screws J-R-

1, J-R-2, and J-R-3 till

they are open for ¾

turns; i.e. slightly

tightened, but allow

for fine alignment.

3) Do the alignment

with the help of the

alignment knobs B &

C to place the opposite

Transceiver exactly in

the center of the target

of the telescope till

receipt of the signal on

RSSI meter.

4) Perform the fine

alignment procedure

given in the section

Fine Alignment on this

page (below).

1) Tighten screws E.

2) Tighten screws J-R-

2 and J-R-3 (2

3. Tightening

the Screws

screws).

3) Tighten screws J-L-

2, J-L-3, and J-L-1 (3

screws) in this order.

To put down alignment

results – link distance;

-weather

All screws are closed.

4. Finishing

the

Alignment

condition;

-visibility;

-RSSI at both

sites.

Fine Alignment

• This stage requires one person on each site.

• Provide yourself with a walkie-talkie, a mobile phone or any other

equipment giving you a way to talk to the assistant working on the

opposite site.

The target at this stage is to aim only the local transmitter, using the Fine Tuning

the 2 knobs B and C, so that the remote receiver will be positioned in the middle

of the beam cross section at the shot distance.

Beam Cross

Section

Figure 6.7:

TereScope

Front view

Transceiver at the middle of

the beam cross section

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Procedure:

1. Find the horizontal and vertical Beam edges (H1, H2, V1, V2) by

obtaining a reading between 200 and 300 on the 7-segment display.

2. Set successively the remote transceiver in the middle of

the two segments [H1, H2] and [V1, V2].

Position at the beginning

(after the coarse alignment)

Figure 6.8

Important: Do not in all cases select the head position for which the DVM reading

is maximum! The best position of alignment is the beam center.

To determine the horizontal beam edges H1 and H2, move slowly left and right

the local transceiver until the digital readout on the remote unit becomes 200.

Locate these two points relating to reference points on the opposite site looking

through the telescope. Set the remote transceiver - moving the local transceiver - at

the middle of these two reference points.

Position after the horizontal

aiming

Figure 6.9

Repeat this process for the vertical positioning (middle of segment [V1,V2]).

Final position after the

vertical aiming

Figure 6.10

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Once the position is reached, firmly tighten the screws as described in Step 3 of the

section Transceiver Alignment on page 48.

Repeat this procedure exchanging roles with the assistant on the opposite

site (i.e. he will move the remote transceiver and you will report to him the

digital readout on the local one).

ꢅ

A t the e nd o f the p ro c e ss

the d ig ita l re a d o ut sho uld

b e a p p ro xim a te ly the sa m e

o n b o th units (se e

A p p e nd ix B fo r e xp e c te d

re a d ing s).

For short distances below or close to the minimum distance specified for

each model (see section Technical Specifications), pay attention that the

digital readout does not exceed 1200.

Caution: If the toggle #3 of DS2 is on 'ON' position, switch it back to 'OFF'

position for normal mode operation.

ꢀ

Link Operating Test

Set back the Mode Select Dip-Switch on the Normal position (the Alignment

indicator should switch OFF).

Connect on both sites with fiberoptic or STP cables coming from the peripheral

equipment to the fiberoptic or copper port of the transceiver.

IT IS A CROSS CONNECTION:

TX ꢂRX AND RX ꢂTX

The F/O RX Flag and Sync. Indicators should switch ON as soon as the

peripheral equipment is powered ON.

In the ETH model, the 10Base-T flag must turn ON and as soon as data traffic is

present, both DATA LEDs must blink.

In the 4U1 (4E1 or 4T1) model, the LED of a port must turn ON as soon as data

traffic is present on the port.

A BER test is recommended. In case this is not possible check at least with the

customer/user the performances of the whole link (see the chapter Bench Test).

Installation Log

Write down all the information about the installation (including digital readout and

the setup of the transceivers) in an installation log. This information is a valuable

reference for future maintenance or troubleshooting visits.

An example of an installation form is shown in Appendix H.

Before Closing the Rear Door

1. Ensure that the Power Supply Cover is fastened in place.

2. All cables are properly held in position.

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Visual Inspection

Visually check that all parts and cables are connected.

Closing the rear door

Put back the Rear Door and push it. Close the four screws I -- see Figure 6.11.,

Pay attention to the cables holding the rear door.

Captive

Screws I

Cables holding

the rear door

Fig. 6.11: Closing the rear door,

Screws I

Connect to the Ground the 2 grounding screws (screw S from the

TereScope, and screw A from the JMP-8).

ꢀ

Installation Completion

Check that the heads appear as shown in the photographs below.

Fig. 6.12: Mounted TS5000 – Right View

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Fig. 6.13: Mounted TS5000 – Left View

Fig. 6.14: Mounted TS5000 – Back View

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Chapter

Maintenance

Periodic Visits

Periodic visits (every three/six months depending on the installation environment)

should be planned for:

• Checking the display

• Checking the mounting

• Cleaning the optical aperture of the transceivers

• Cleaning the building windows for indoors installations.

At cleaning time, the reading of the digital readout should be marked

down in a service log book. Once the optical aperture is cleaned, if

the reading is substantially lower than that noted at installation time,

the aiming accuracy should be examined and restored if necessary.

ꢅ

Note

Aiming accuracy should be checked looking through the telescope and comparing

the present scene sighting to the one sketched in the Installation Log at installation

time.

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APPENDIXA

Product Specifications

TS5000/G

TS5000G/XXX/V** or TS5000G/XXX/F**

TS5000/G or TS5000/G-F

Part Number

Model

TS5000G/M8C/V1S

Standard P.N

Escon, 622Mbps, Fiber channel, Giga-Ethernet and

others between 100 and 1500Mbps

Application /

Data Protocol

Performance

Rate

100-1500 Mbps

Not attenuated (3 TXs)

3500 m

Attenuated (2 TXs)

3100 m

Range @ 3dB/km

@ 5dB/km

2750 m

2500 m

@ 10dB/km

@ 17dB/km

@ 30dB/km

1850 m

1300 m

870 m

1650 m

1200 m

820 m

Minimum Range

700 m

500 m

Bit Error Rate

MTBF

Less than 1E-12 (unfaded)

10 years

3 x Lasers

830-860 nm

70 - 140 mW

2 mrad

Transmitter

Light source

Wavelength

Total Output power

Beam divergence

Receiver

Interface

Detector

Field of view

Sensitivity

APD

5 mrad

-33 dBm

Type

Fiber Optic Transceiver - Multimode (Single mode available upon

request)

Connectors

Wavelength

Output power

RX operating range

Built-in Fusion

SC (other connectors available)

850 nm (other wavelength available)

-4 to -9.5 dBm

0 to –17 dBm

Optional

Factory set: 100-240 VAC @ 50/60 Hz or 35-60 VDC (V3 and F3 versions)

(30 W)

Power Supply

Environmental Operating Temp.

-30 °C to +60 °C

-50 °C to +70 °C

95% non-condensing

Weatherproof – IP 66

Information

Storage Temp.

Humidity

Housing

Eye safety Class

Mechanical

Design

Dimensions [mm]

Weight Unit

790 X 390 X 556 (AD-5000: 250x353x432)

14 kg

Accessories

21.5Kg

Modularity

Indicators

Modular Power supply, Modular Interface,

Redundant Power supply - optional

Diagnostics

Indicators

and

Airlink: Flag, Sync. Fiber Optic: Flag, Sync.

Alignment, Loopback, Fusion: Enabled/Active, Heating status (if

exists), Control mode: Hardware mode or software mode.

Power supply status, Heating active, Receive Signal Strength

(Digital Display), Lasers status (3 LEDs), SNMP TX and RX

Selectors

Alignment, Loopback (local), Remote Loopback, Fusion

activation, Signal attenuation for Short distance, Heating activation

(if exists), IP address setup, Control mode.

Two pairs of Pins of the management RJ45 connector can be

used for dry contact purposes, for Airlink flag and F/O flag alarms

Dry Contact

Management

SNMP Protocol – Built-in

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TS5000/155 and TS5000/155-F

TS5000/XYZ/V** or TS5000/XYZ/F**

Part Number

Model

TS5000/155 or TS5000/155-F

TS5000/M3C/V1S

Standard P.N

Application /

Data Protocol

Fast Ethernet, ATM, OC3,STM1, SMPTE, E3, T3, OC1/STM0 &

Open Protocol

Performance

Rate

Range @ 3dB/km

1-155 Mbps

5400 m

@ 5dB/km

4080 m

@ 10dB/km

@ 17dB/km

@ 30dB/km

2650 m

1820 m

1185 m

Minimum Range

450 m

Bit Error Rate

MTBF

Less than 1E-12 (unfaded)

10 years

Transmitter

Light source

Wavelength

Total Output power

Beam divergence

Detector

3 x Lasers

830-860 nm

85 mW

2 mrad

Receiver

Interface

APD

2 mrad

-46 dBm

Field of view

Sensitivity

Type

Fiber Optic Transceiver - Multimode (Single mode available upon

request)

Connectors

Wavelength

Output power

RX operating range

Built-in Fusion

SC (other connectors available)

1310 nm (other wavelength available)

-17 ± 3 dBm

-14 to –30 dBm

Optional

Factory set: 100-240 VAC @ 50/60 Hz or 35-60 VDC (V3 and F3 versions)

(30 W)

Power Supply

Environmental Operating Temp.

-50 °C to +60 °C

-50 °C to +70 °C

95% non-condensing

Weatherproof – IP 66

Information

Storage Temp.

Humidity

Housing

Eye safety Class

Dimensions [mm]

Weight Unit

Mechanical

Design

790 X 390 X 556 (AD-5000: 250x353x432)

14 kg

Accessories

21.5kg

Modularity

Indicators

Modular Power supply, Modular Interface,

Redundant Power supply - optional

Diagnostics

Indicators

and

Airlink: Flag, Sync. Fiber Optic: Flag, Sync.

Alignment, Loopback, Fusion: Enabled/Active, Heating status (if

exists), Control mode: Hardware mode or software mode.

Power supply status, Heating active, Receive Signal Strength

(Digital Display), Lasers status (3 LEDs) ), SNMP TX and RX

Selectors

Data Rate, Alignment, Loopback (local), Remote Loopback,

Laser status, Fusion activation, Heating activation (if exists), IP

address setup, Control mode.

Two pairs of Pins of the management RJ45 connector can be

used for dry contact purposes, for Airlink flag and F/O flag alarms

Dry Contact

Management

SNMP Protocol – Built-in

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TS5000/ETH

TS5000/ETH/V*

TS5000/ETH

Part Number

Model

TS5000/ETH/VS

Standard P.N

Application /

Data Protocol

Ethernet (10 Mbps)

Performance

Rate

10Mbps

6700 m

5000 m

Range ⁽¹⁾@ 3dB/km

@ 5dB/km

@ 10dB/km

3200 m

@ 17dB/km

2170 m

@ 30dB/km

1400 m

Minimum Range

Bit Error Rate

MTBF

400 m

Less than 1E-9 (unfaded)

10 years

3 x Lasers

830-860 nm

85 mW

Transmitter

Light source

Wavelength

Total Output power

Beam divergence

2 mrad

Receiver

Detector

APD

Field of view

Sensitivity

2 mrad

-55 dBm

Interface

Type

Connectors

Cable

Copper 10BaseT

RJ45

STP

Factory set: 100-240 VAC @ 50/60 Hz or 35-60 VDC (V3 Version)

(30 W)

Power Supply

Environmental Operating Temp.

-30 °C to +50 °C

-50 °C to +70 °C

95% non-condensing

Weatherproof – IP 66

Information

Storage Temp.

Humidity

Housing

Eye safety Class

Dimensions [mm]

Weight Unit

Mechanical

Design

790 X 390 X 556 (AD-5000: 250x353x432)

14 kg

21.5kg

Accessories

Modularity

Indicators

Modular Power supply

Diagnostics

Indicators

and

Airlink: Flag, Data. 10Base-T: Flag, Data.

Receive Signal Strength (Digital Display),

Lasers status (3 LEDs)

Selectors

IP address setting

One pair of Pins of the main RJ45 connector can be used for

dry contact purposes, for Airlink flag alarm

Dry Contact

Management

SNMP Protocol – Built-in

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TS5000/4U1 (4E1 or 4T1)

TS5000/4E1/V* or TS5000/4T1/V*

TS5000/4E1 or TS5000/4T1

TS5000/4E1/VS

Part Number

Model

Standard P.N

4E1: 4x2.048Mbps or 4T1: 4x1.55Mbps

G.703/G.704

Application /

Data Protocol

Performance

Range @ 3dB/km

@ 5dB/km

6700 m

5000 m

@ 10dB/km

3200 m

@ 17dB/km

2170 m

@ 30dB/km

1400 m

Minimum Range

Bit Error Rate

MTBF

400 m

Less than 1E-9 (unfaded)

10 years

Transmitter

Light source

Wavelength

Total Output power

Beam divergence

3 x Lasers

830-860 nm

85 mW

2 mrad

Receiver

Interface

Detector

Field of view

Sensitivity

APD

2 mrad

-55 dBm

Type

Connectors

Cable

Electrical: E1: 75 Ohm or 120 Ohm, T1: 100 Ohm

Universal Connector

STP or Coax

Cable Losses

Supports Short and Long haul trunks

Factory set: 100-240 VAC @ 50/60 Hz or 35-60 VDC (V3 Version)

(30 W)

Power Supply

Environmental Operating Temp.

-30 °C to +50 °C

-50 °C to +70 °C

95% non-condensing

Weatherproof – IP 66

Information

Storage Temp.

Humidity

Housing

Eye safety Class

Dimensions [mm]

Weight Unit

Mechanical

Design

790 X 390 X 556 (AD-5000: 250x353x432)

14 kg

21.5kg

Accessories

Modularity

Indicators

Modular Power supply

Diagnostics

Indicators

and

Airlink: Flag, Sync. E1 Ports: LED per port.

Receive Signal Strength (Digital Display),

Lasers status (3 LEDs)

Selectors

Termination, Electrical receive sensitivity, Line incoding, Local

Loopback, Remote Loopback, IP address setting

6 Dry Contact outputs: 4 for interface ports

1 for air-link flag

Dry Contact

1 for air-link sync

Management

SNMP Protocol – Built-in

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Digital Readout vs. Distance

APPENDIX B

These tables are only intended to give you an idea of what digital readout you could

expect according to the distance to link.

D= Distance [m]

R= Reading (Digital readout)

TS5000/G and

TS5000/G-F

400

500

600

820

700

800

780

900 1000 1100 1200 1400 1500

700 620 560 500 440 380

1100 950

1600 1800 2000 2200 2400 2600 2800 3000 3500 4000

360 280 240 220 180 160 135 125 95 75

600

800 1000 1200 1400 1600 1800 2000

880 840 830 810 800

TS5000/155 and

TS5000/155-F

Rev 3.0 and less

1050 1000 940

2200 2400 2600 2800 3000 3500 4000 5000

790 780 760 750 740 720 680 580

TS5000/155 and

TS5000/155-F

400

500

600

700

800

900 1000 1100 1200 1400 1500 1600 1800 2000

970 950 940 930 920 910 890 840 780

1270 1250 1070 1020 990

2200 2400 2600 2800 3000 3500 4000 4300 4600 5000 5300 5600 6000

730

680

650

630

570

530

490

465

450

440

420

410

390

400

500

600

700

800

900 1000 1100 1200 1400 1500 1600 1800 2000

920 870 800 720 705 700 670

TS5000/ETH and

TS5000/4U1

(4E1 or 4T1)

1220 1220

1040 990

1150

850

710

2200 2400 2600 2800 3000 3500 4000 4300 4600 5000 5300 5600 6000

590 540 510

630

570

470

430

410

390

360

350

330

320

Actual reading may be greater or up to 15% lower.

Even when there is no transmission from the opposite side, the digital readout of

TS5000 can show a certain reading: up to 5-6 in laboratory and up to 20 outside.

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Unpacking Instructions for TS4000/5000

APPENDIX C

The JMP-8 is shipped assembled to the AD-5000, inside the accessories packing

box. It must be dismantled prior to installation.

1. Unpack all the accessories.

2. Loosen completely the four ‘D’ (M8 hex. screws, using

wrench #13 and take the AD-5000 off the base JMP-8

(Save the screws for later use). Do not attempt to loosen or

tighten any screws on the AD-5000 other than those

specified in this manual.

The packing box

contains:

• Big box with one

Transceiver

TS4000/5000

• Smaller box with

accessories:

♦

AD-5000 &

JMP-8

♦

JITK – Installer

tools kit and

screws

♦

CD manuals

Flexible ducts x 2

Flange x 2

Fig C.1: The Four ‘D’ Screws

‘D’ Screws

(Two in front, two behind)

KEEP IN SECURE PLACE ALL THE BOLTS AND SCREWS. YOU

WILL NEED THEM FOR THE INSTALLATION.

ꢄ

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Tool Kit, Equipment and Materials

APPENDIX D

TOOLS

Electric drill (impact for masonry), reversible, with

speed control and 0-13mm chuck

Drills set High Speed Steel (HSS) 3-13mm.

Concrete carbide .bit drills 6,8,9 and 10mm (regular

and long shank).

10.

Adjustable (crescent) wrench 6”, 10”.

Open-ring wrenches (spanners), standard and metric.

Vice grip pliers 10-12”

Cutter, long nose pliers, electrician’s pliers (insulated).

Pen, Pencil, Permanent markers.

Lens cleaning clothes.

Screwdrivers (flat and Philips), sizes 1, 2, 3 + power

screwdriver bits.

11.

12.

13.

14.

15.

50m extension cable + 3 outlet multiple electrical tap

200g hammer.

Blade knife.

Ratchet handle driver.

Socket wrenches 8mm, 10mm, 11mm, 13mm, 14mm,

½” .

16.

MRV JITK, see next page for details.

MATERIALS

Anchors (wall plugs) “UPAT” 13mm diameter

Hex-head screws to fit wall plugs 40, 60, 75mm length.

Assortment of screws, nuts, washers, spring washers.

Electric insulation tape.

Super glue, tie wraps (Panduit™).

6. 20 mm fuse SB, 125mA, 160mA, 250mA,

500mA, 1A

ELECTRONIC &

1. Digital voltmeter (DVM)

2. 2 Walkie Talkies or cellular phones.

3. Binoculars

GENERAL

EQUIPMENT

4. Four STP cables (two cross and two straight)

terminated with RJ-45 connectors each end.

OPTICAL

EQUIPMENT

1. Optical Power Meter (Fotec, Noyes, Acterna…)

with fiber sockets.

(if relevant)

2. 2 sets of multimode (62.5 µm) and Singlemode

(15µm) optical fibers with SC terminations.

LAB EQUIPMENT

E1/ETH/ATM/Fast Ethernet BER Test equipment-

depending on TS model.

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A LIST OF THE TOOLS SUPPLIED BY MRV COMMUNICATIONS

WITH EVERY TS4000/5000 HEAD

Description

Qty

Where to use

WRENCH #10 FOR M6

SCREW

H: AD-5000 to TereScope box

WRENCH #13 (M8

SCREW)

E: JMP-8 - Horizontal Aiming

Locking screws

WRENCH # 9/16”

(SCREW 3/8”)

D: Locking screws between the

alignment device AD-5000 &

base plate JMP-8

BALLDRIVER L

(WRENCH 5 MM)

J-R, J-L, L: Vertical aiming

locking screws

BALLDRIVER L,

WRENCH 3mm

I: Rear Door Screws (x4)

M8 SCREW, WASHER,

SPRING, NUT

Optional. To mount AD-5000

on standard pedestal

INSTALLATION

TOOL CASE

Tool case

Wrenches Kit for TS Installation

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TereScopes Bench Test Procedure

APPENDIX E

Introduction

All TS Products are bench tested indoors prior to outdoor

installation to ensure that the system is fully functional.

The bench test is a simple procedure whereby a link pair is aligned

on the table and activated to simulate a channel of communication

(see fig.1).

2 Points to Remember

1. Since the link distance during the bench test is very short (i.e. the

devices activated are very close), the receivers will go into saturation

unless the signal is attenuated.

To avert entering saturation, the transmit signal must be physically

attenuated.

We recommend the simple procedure of inserting a piece of paper

or the like into the beam path, or concealing a portion of the beam

with an opaque (non-transparent) material. This will reduce the

signal power entering the receiver.

Make sure to attenuate the signal enough so that the receiver’s

optical power meter value falls below the saturation estimate of the

device. See table below for saturation estimate.

2. An additional derivative of the short link distance is the presence

of reflections.

The signal will reflect off the front window of the receiver back at

the transmitting device and may be mistaken as part of the opposite

transmission.

This interference is commonly called “cross talk”.

To avoid cross talk during the bench test, it is advisable to check

whether interfering reflections exist by shutting off power to one

device and verifying that the optical power meter reading in the

other (active) device is zero.

This should be repeated for the opposite device.

Alternatively, a practical setup for bench testing the 4” series

(models B, C and D) and Light series (models A and C2) is

presented in Figure 1; the bench test setup for the 10” series

(models E and F) is presented in Figures 2a,2b.

In the 4”/Light setup, a thin physical barrier, such as a piece of

cardboard, is used as a wall to divide between the beam paths, thus

ensuring that no cross talk occurs.

In the 10” setup, the two devices are not centrally aligned; instead,

only one corner of each device faces the opposite device. This

allows for testing each transmitter separately. By rotating the devices

45 degrees, the next pair of transmitters is tested. Hence, testing all

8 transmitters in the link pair requires only 4 rotations.

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In the 8” setup, the two devices are not centrally aligned; instead,

only one corner of each device faces the opposite device. This

allows for testing each transmitter separately. By rotating the devices

45 degrees, the next pair of transmitters is tested. Hence, testing all

6 transmitters in the link pair requires only 3 rotations. With opaque

masking tape, cover all transmitters that are not under test.

Table 1: Bench Test Information for TS Products

Opt. Power M. “Sub-Saturation”

Potential for

Interference

Low

Product name

value

1100

1200

1100

1200

1000

TSxxxx

TSxxx/ETH

TSxxx/E1

TSxxxx/ST

TS2000/XXX

TS4000/XXX

TS5000/XXX

Med

High

Med

High

Figure E.1: Bench Test setup for 4”/Light TS models.

Figure E.2a: Bench Test setup for 10” TS model; transmitter aligned opposite receiver

marked with arrows.

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Figure E.2b: Bench Test setup drawing

for 10” TS model.

Note that one device is higher than the

other and shifted over to the side so that

only one transmitter from each device is

facing opposite the other device’s receiver.

Telescopes

Figure E.3: Active Transmitters (Shown Darkened).

Bench Test for TS700 and TS800 series with JAH-L

The Aiming head of the TS700 and TS800 series was changed from AD-700

to JAH-L.

Therefore the TereScopes are delivered to the clients not mounted on the

Aiming head. In this case, when the back door is opened and secured in its

place, it hangs over the TereScope basis and the TereScope can’t stand straight

and leans on the door, which can damage the door’s hinges.

Therefore there are two ways to perform the Bench test, as can be seen on the

following figures.

The first way is to mount the TereScope on its Aiming head and do all the

tests before installation with the alignment head.

Rear Door fixed

The Rear Door

hangs over the

TereScope basis

JAH-L

Figure E.4: Bench test with TereScopes mounted on the Aiming Head (JAH-L.)

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The second way is to put under the TereScope some object (minimum height -

3 cm), which will make the TereScope stand straight without leaning on the

door. The foam, used for TereScopes packaging can be used for this purpose.

Rear Door fixed

Elevation on high object

Figure E.5: Bench test with TereScopes elevated.

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Effect of Wind on Terescope Devices

APPENDIX F

Introduction

The outdoor environment in which our devices are normally placed exposes the

link to wind pressures that may affect the accuracy of the link’s alignment.

Several factors play a role in the determination of the extent to which the directionality of

a TS device may be affected by the wind:

Wind speed

Wind direction

Surface area of device perpendicular to wind

Mechanical stability of aiming head – device system.

For example, the mechanical stability is greatest along the side-side axis of the device.

Although the surface area along the side of the device is greatest, the resultant wind force

– even at very high wind speeds – will barely have an impact on the beam’s direction, due

to the rigid mechanics along the side-side axis.

Wind Limits for TS Devices

All TS devices have been tested in “worst-case” scenario of the above four factors.

The force necessary to deviate beam was measured from different direction.

From here¹, the minimum wind speed with maximum effect on beam deviation was

determined.

The following table lists the minimum wind speeds for different TS products that may

cause:

A momentary lapse in the communication.

An extended lapse requiring mechanical repair.

TS Device

Momentary

Extended

110 Km/hr

200 Km/hr

• 10” (E&F models)

• 10” with Windproof-L

Accessory

Over 180 Km/hr

Over 250 Km/hr

150 Km/hr

220 Km/hr

150 Km/hr

180 Km/hr

Over 250 Km/hr

Over 300 km/hr

Over 250 Km/hr

• 4” (B,C, D models)

• 4” with Windproof-S

• Light (700& 800 series)

• PAL (TS1)

• 8” (Models 2000, 4000

200 Km/hr

and 5000 series)

We include here the formula for calculating the effective wind force on a flat surface, given a known wind

speed:

Wind Force = 0.79 x (Wind Speed)²x (Area of Surface)

For instance, assuming a wind speed of 27.78 m/s (equal to 100Km/hr) on a surface area of 0.04m²

(400cm²), the force is equal to 24.4 Newtons.

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Appendix G

FSO Chaining

What is Chaining?

The Chaining of FSO is required when the two sites are connected by more than one link using at least

one additional building as a mid-point.

When is the Chaining required?

The Chaining of FSO links is required in the following cases:

a) When there is no direct line of sight between the sites;

b) When the distance between the sites is too long;

c) When the distance between the sites is reachable with one link but the customer wants much

more Power Budget for higher reliability.

Fig G.1:

As there is no line of sight from

A to B, we are using C as a

repeater point. On C rooftop we

used “Direct Chaining

connectivity

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Indirect Chaining

Indirect Chaining is required for

connecting FSO units not including

clock recovery circuits. In cases of

indirect connectivity, the connection

between the two FSO units on the

same roof must be done through the

Switch or Router or another means

of connection that is located inside

the building. For example, in Fig. 2, we

use the indoor switch in building C for

the chaining.

Switch

Fig. G.2

Indirect chaining

Direct Chaining

Direct Chaining is the capability to

directly connect two FSO units on

the same roof (used as repeaters)

i.e.. direct crossing between Rx and

TX of the two units. For example,

in Fig. 3 connection is achieved on

rooftop of building C without the

need to enter the building.

Direct connection is possible for

FSO that include clock recovery

circuits. The clock recovery

regenerates the signal and

enables smooth direct chaining.

Fig. G.3

Direct chaining

Chaining Limits

The number of links that can be chained is limited due to the Jitter parameter. Sensitivity to jitter is different for

every protocol and can vary with different manufacturers. The typical number is 3-4 chained links. If more

chains are required, please consult your MRV representative.

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FSO products & Chaining

Product series

Chaining

Indirect

Direct

No of chained links

TSG (100-1500 Mbps)

TS155-PS (1-155 Mbps)

TS100 (Fast-Ethernet)

3-4

Direct

3-4

TS34 (Open Protocol, 1-34 Mbps)

TS10 (Ethernet)

Indirect

Direct

3-4

TS Mux (Mux 4E1, 4T1)

TS2 (E1, T1)

Direct

No Limits*

Direct

*No Limits – it refers to Networking extensions. If the extensions are of TDM type (E1,E3, STM-1, STM-3 ), after

some chains we might face some “jitter” problems. Therefore, in such cases, chaining should be considered on a case by case

basis.

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APPENDIX H

Installation Log

D.1. Client / Dealer details

Customer

Dealer

Company Name

Address

City

Country

Contact Person

Tel

Fax

e-mail

D.2. Application details

Type of network

E1 ,

FDDI ,

Ethernet ,

ATM ,

Token Ring ,

Other (Specify)

Fast Ethernet ,

Product

Evaluated distance by customer

Address of installation (site A)

Address of installation (site B)

D.3. Sketch of the area

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D.4. Site survey

Done by

Customer representative

Distance

Date

Site A

Site B

Location

Floor

Orientation (NSEW)

Installation site scheme

Indoor / Outdoor

Plate JMP / Bracket JMB

Window attenuation

On-line UPS

Voltage required (110V / 230V)

Ground earthing

Radio antenna field

Associated interface

equipment

Site A

Site B

Manufacturer

Type

Model number

Interface type

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D.5. Installation

Done by

Customer representative

Date

Site A

Site B

System model

Serial number

Location: Same as site survey,

if not provide details

Accessories : Same as site

survey, if not provide details

Digital readout

Telescope calibration :

if cannot , sketch the telescope

view

BER test

BER equipment type

Loopback location

Error type (random, burst)

Brief interruption test

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D.6. System failure

Visit made by

Customer representative

Date

Site A

Site B

Sketch of telescope view

Digital readout

Failure detail

Action items

Visit made by

Customer representative

Date

Site A

Site B

Sketch of telescope view

Digital readout

Failure detail

Action items

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APPENDIX I

Power Supply Replacement

General

The PS-X000-PR-XX power supply is used in the TS5000 and in TS4000 series. It is pluggable and may be DC

(24 to 60 Vdc, or 35-60Vdc for TS5000 series) or AC (100-240 Vac). The power supply can be simply hot

swapped within seconds without the need for performing any other changes to the TereScope.

Procedure

The procedure for replacing the power supply in the TS5000 is as follows:

1. Turn off the power to the TS5000.

2. Remove the back door by undoing the four (4) allen screws.

3. Remove the power supply cover by undoing the single screw.

4. Disconnect the three (3) wires of the power cable by undoing the three (3) screws.

5. Undo the two ‘N’ screws (shown in Figure I.1) and carefully pull out the power supply as

shown in Figure I.2.

6. Disconnect the flat cable from the power supply as shown in Figure I.3.

7. Connect the flat cable to the new power supply.

8. Fasten the new power supply with the two ‘N’ screws.

9. Connect the three (3) wires of the power cable with the three (3) screws.

10. Fasten the power supply cover with the single screw.

11. Fasten the power supply back door with the four (4) Allen screws.

12. Turn on the power to the TS5000.Power.

Figure I.1: Undoing an ‘N’ Screw

Figure I.2: Pulled out Power Supply

Figure I.3: Disconnected Flat Cable

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APPENDIX J

TS5000/155 and TS4000/155 enhancements

Constantly striving for excellence and customer satisfaction, as befits the world leader in the FSO, MRV is presently

enhancing its TS4000/155 (p/n TS4000/XYZ/V**) and the TS5000/155 (TS5000/XYZ/V**) TereScope systems to make

the operation of these devices easier. For example, from now on if a customer does not ordered a Fusion option and

afterwards changed his mind, he will not have to return the TereScope to the factory, he will be able to quickly and easily

replace the interface by himself. Also, an optional additional power supply can double the MTBF of these products.

The improvements consist of:

1 – Redundant power supply : it is

possible to order an additional power

supply for the TS head. In this case if

the main power supply fails, the

redundant will continue the job without

cutting the link.

2 – The interface is removable: the

distributor or the client can change the

interface without sending the unit to

MRV. (good for changing from MM to

SM or to add the FUSION soltion…)

3 – Laser enable indicators: While it is

a new feature for the TS4000/155,

TS5000/155 always had it - just the

indicators’ location on the back panel

and their size were changed.

4 – SNMP management: a new SNMP

Redundant

Main

removable

Power supply

Removable

Interface

card is integrated, the features are:

a - Two new functions :

removable

Power supply

(Optional)

•

Local Loop back

Remote Loop Back

b - Active Management (not only

monitoring):

•

Local Loop back

Remote Loop Back

Reset

Fusion

Add Power supplies status

Software or hardware mode

Lasers Enable

indicators

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