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Introduction

 

The

 

FiberPlex

 

WDM

 

is

 

an

 

8

 

or

 

16

 

Channel

 

Wavelength

 

Division

 

Multiplexer,

 

with

 

each

 

optical

 

channel

 

brought

 

out

 

to

 

an

 

SFP

 

slot,

 

so

 

the

 

user

 

does

 

not

 

need

 

to

 

supply

 

wavelength

specific

 

modules.

 

Each

 

channel

 

can

 

be

 

linked

 

via

 

fiber

 

with

 

selected

 

FiberPlex

 

FOM

 

or

 

FOI

 

fiber

 

modules,

 

FiberPlex

 

LightViper™

 

or

 

with

 

virtually

 

any

 

third

 

party

 

fiber

 

optic

 

equipment

 

with

 

data

 

rates

 

from

 

155

 

megabits

 

up

 

to

 

3

 

gigabits

 

per

 

channel,

 

for

 

a

 

possible

 

maximum

 

aggregate

 

data

 

rate

 

of

 

48

 

gigabits.

 

The

 

user

 

data

 

enters

 

and

 

leaves

 

the

 

WDM

 

via

 

16

 

SFP

 

slots

 

on

 

the

 

WDM16,

 

or

 

8

 

slots

 

on

 

the

 

WDM8A

 

and

 

WDM8B,

 

which

 

can

 

be

 

left

 

unpopulated

 

for

 

unused

 

channels,

 

or

 

populated

 

with

 

user

supplied

 

MSA

compliant

 

SFP

 

modules

 

that

 

are

 

appropriate

 

for

 

the

 

user’s

 

data

 

rate,

 

protocol

 

and

 

jitter

 

requirements.

 

Internally,

 

these

 

connect

 

to

 

fiber

 

optic

 

transceivers

 

which

 

are

 

tuned

 

to

 

the

 

specific

 

wavelengths

 

for

 

the

 

channels,

 

which

 

are

 

then

 

multiplexed

 

onto

 

the

 

aggregate

 

pair

 

which

 

connect

 

to

 

the

 

other

 

WDM(s)

 

in

 

the

 

link.

 

Data

 

that

 

enters

 

a

 

specific

 

channel

 

on

 

one

 

WDM

 

will

 

appear

 

on

 

the

 

corresponding

 

channel

 

on

 

the

 

other

 

WDM(s)

 

in

 

the

 

link,

 

with

 

no

 

interference

 

with

 

any

 

other

 

channels.

 

Possible

 

link

 

configurations

 

are:

 

 

WDM16

 

to

 

WDM16

 

 

all

 

16

 

channels

 

through

 

 

WDM8A

 

to

 

WDM8A

 

 

all

 

8

 

channels

 

through

 

 

WDM8B

 

to

 

WDM8B

 

 

all

 

8

 

channels

 

through

 

The

 

aggregate

 

fibers

 

from

 

the

 

WDM

 

units

 

exit

 

the

 

chassis

 

via

 

a

 

duplex

 

LC

 

coupler,

 

which

 

connect

 

to

 

single

 

mode

 

fiber,

 

up

 

to

  

20

 

km

 

in

 

length.

 

Since

 

this

 

is

 

an

 

aggregated

 

wideband

 

stream,

 

any

 

user

 

equipment

 

in

 

the

 

optical

 

path

 

(switches,

 

couplers,

 

etc.)

 

must

 

be

 

able

 

to

 

accommodate

 

the

 

entire

 

bandwidth

 

without

 

attenuation,

 

and

 

will

 

not

 

be

 

able

 

to

 

receive

 

or

 

decode

 

the

 

stream

 

digitally.

 

The

 

WDM

 

units

 

have

 

provision

 

for

 

two

 

(2)

 

power

 

supply

 

modules

 

for

 

redundancy

 

each

 

having

 

capacity

 

to

 

power

 

the

 

entire

 

unit.

 

An

 

AC

 

power

 

input

 

module

 

is

 

available

 

now

 

and

 

a

 

DC

 

version

 

is

 

in

 

development;

 

both

 

are

 

‘hot

 

swappable’.

 

Key

 

Features

 

 

16

 

(or

 

8)

 

Channel

 

Active

 

Wave

 

Division

 

Multiplexer

 

 

Combines

 

16

 

(or

 

8)

 

optical

 

channels

 

into

 

a

 

single

 

fiber

 

pair

 

 

Each

 

channel

 

independently

 

supports

 

data

 

rates

 

from

 

155

 

MB

 

up

 

to

 

3

 

GB

 

 

SMPTE

 

compatible

 

internal

 

fiber

 

optics,

 

video

 

optimized

 

to

 

support

 

Pathological

 

Signals

 

 

Each

 

optic

 

channel

 

can

 

independently

 

accept

 

multimode

 

or

 

single

 

mode

 

optics,

 

coax

 

connection

 

or

 

CAT5

 

using

 

flexible

 

SFP

 

modules

 

 

Fully

 

redundant,

 

hot

 

swappable

 

power

 

for

 

ultimate

 

reliability

 

 

WDM

 

Theory

 

of

 

Operation

 

Infrared

 

light

 

has

 

a

 

frequency

 

of

 

approximately

 

400

 

Terahertz

 

(400,000

 

Gigahertz).

 

That

 

is

 

about

 

125,000

 

times

 

higher

 

than

 

the

 

data

 

rate

 

of

 

a

 

typical

 

3

 

Gigabit

 

SFP,

 

which

 

means

 

a

 

large

 

proportion

 

of

 

the

 

bandwidth

 

of

 

a

 

fiber

 

optic

 

cable

 

is

 

wasted.

 

The

 

current

 

state

 

of

 

the

 

art

 

does

 

not

 

allow

 

utilizing

 

all

 

of

 

that

 

bandwidth,

 

but

 

we

 

can

 

recover

 

some

 

of

 

it

 

by

 

a

 

technique

 

called

 

“Coarse

 

Wave

 

Division

 

Multiplexing,”

 

or

 

“CWDM.”

 

Essentially,

 

it

 

is

 

the

 

simple

 

technique

 

of

 

taking

 

each

 

3

 

Gigabit

 

channel

 

and

 

using

 

it

 

to

 

modulate

 

a

 

different

 

frequency

 

in

 

that

 

400

 

Terahertz

 

bandwidth.

 

This

 

is

 

done

 

through

 

a

 

series

 

of

 

optical

 

filters

 

and

 

combiners,

 

along

 

with

 

lasers

 

and

 

photodiodes

 

tuned

 

to

 

a

 

particular

 

infrared

 

center

 

frequency.

 

Historically,

 

however,

 

optics

 

are

 

referred

 

to,

 

not

 

by

 

their

 

frequency,

 

but

 

by

 

their

 

wavelength,

 

which

 

is

 

the

 

speed

 

of

 

light

 

divided

 

by

 

the

 

frequency.

 

In

 

the

 

traditional

 

implementation

 

of

 

a

 

CWDM,

 

it

 

is

 

the

 

user’s

 

responsibility

 

to

 

provide

 

the

 

tailored

 

SFPs

 

and

 

the

 

CWDM

 

itself,

 

which

 

may

 

require

 

adapters

 

to

 

interface

 

with

 

the

 

user

 

equipment.

 

The

 

Fiberplex

 

WDM

 

line,

 

on

 

the

 

other

 

hand,

 

is

 

an

 

active

 

WDM,

 

with

 

the

 

wavelength

specific

 

components

 

already

 

tested

 

and

 

configured.

 

Instead

 

of

 

a

 

wavelength

specific

 

optical

 

fiber,

 

a

 

generic

 

SFP

 

electrical

 

interface

 

is

 

provided

 

for

 

each

 

channel.

 

Any

 

SFP

 

that

 

conforms

 

to

 

the

 

MSA

 

can

 

be

 

inserted,

 

even

 

copper

based

 

SFPs

 

like

 

gigabit

 

Ethernet,

 

SDI,

 

HDMI

 

or

 

MADI.

 

The

 

internal

 

SFPs

 

have

 

a

 

full

 

3

 

Gigabit

 

bandwidth,

 

video

optimized.

 

Generic

 

fiber

 

SFPs

 

have

 

limitations

 

in

 

passing

 

video

 

signals,

 

since

 

they

 

do

 

not

 

maintain

 

a

 

constant

 

DC

 

level.

 

The

 

video

optimized

 

SFPs

 

are

 

constructed

 

to

 

better

 

handle

 

the

 

shifting

 

DC

 

levels

 

in

 

video

 

signals.

 

 

Содержание WDM16

Страница 1: ...USER MANUAL Active Wave Division Multiplexer WDM16 WDM8A WDM8B...

Страница 2: ......

Страница 3: ...us the apparatus has been exposed to rain or moisture does not operate normally or has been dropped The apparatus shall not be exposed to dripping or splashing No objects filled with liquids such as v...

Страница 4: ...I equipment must be earthed separately Grounding the unit is one of the measures for protection against electrical shock hazard dangerous body currents Hazardous voltage may not only be caused by defe...

Страница 5: ...sal of Used Equipment Used equipment contains valuable raw materials as well as substances that must be disposed of professionally Please dispose of used equipment via an authorized specialist dealer...

Страница 6: ...Active Wave Division Multiplexer Combines 16 or 8 optical channels into a single fiber pair Each channel independently supports data rates from 155 MB up to 3 GB SMPTE compatible internal fiber optics...

Страница 7: ...the number of Active Wave Division channels and the associated internal wavelengths that are supported The chassis dimensions and power supplies remain identical The WDM16 supports all of the 16 stand...

Страница 8: ...if there is mechanical damage or if the unit fails to operate notify FiberPlex and make the shipping materials available for the carrier s inspection Chassis Mounting Mount the chassis using fastener...

Страница 9: ...ystem is functioning normally PS1 Shows status indication of the power supply in PS Slot 1 top slot Color indications can be interpreted using the following table LED State Condition Off No power supp...

Страница 10: ...INF 8074i more information later in this manual They are fixed bi directional ports and cannot support dual TX or dual RX SFPs Any standard MSA complaint SFP can be used in these slots including but n...

Страница 11: ...Power Supply Module AC Inlet Power is provided through a Neutrik powerCON TRUE1 connector Connect to 100 240 VAC power source using the supplied AC power cord Fuse Compartment Contains the fuse for th...

Страница 12: ...lete redundancy The second supply can be inserted at any time in the unused power supply slot Insert the supply first then apply external AC power The PSMAC and the WDM16 8 support hot swapping of the...

Страница 13: ...REMOVE CAP REPLACE FUSE SCREWDRIVER SLOT Figure 6 Replacing the Fuse in the PSMAC...

Страница 14: ...e SFP Module has a Bail Clasp close the Bail Clasp before inserting the SFP Module 4 With the gold finger connector on the bottom and the label on the top line up the SFP Module with the empty cage an...

Страница 15: ...Tab Pull the tab gently in a straight outward motion until it disengages from the port Make sure the tab is not twisted when pulling as it may become disconnected from the SFP Module Slide Tab With y...

Страница 16: ...nnecting the cable requires grasping the cable connector with your full hand and pulling back the release ring with your thumb and fore finger while pulling the connector straight out See Neutrik docu...

Страница 17: ...the WDM16 The pinouts of the connectors are as follows Connector Pin Function 1 Rx to the WDM 2 RX to the WDM 3 TX from the WDM 4 TX from the WDM A standard crossover RJ11 cable can be used to daisych...

Страница 18: ...gical conditions allowing the longer sequences of ones or zeros to pass without error The Fiberplex Technologies WDM16 and WDM8 Active Coarse Wave Division Multiplexer has Video Enhanced optics pre in...

Страница 19: ......

Страница 20: ...WDM16 Specifications 19 00 482 6 3 00 76 2 3 47 88 1 18 33 465 5 25 6 4 17 25 438 2 13 12 333 2 13 62 346 0 Figure 10 WDM16 8 Overall Dimensions...

Страница 21: ...ax Data Rate MB 155 3000 Recommended Jitter psec 40 Operating Voltage VDC 3 3 Maximum Current mA 350 Internal CDWM Optical Interfaces Min Typ Max Aggregate Optical Launch Level dB 1 0 1 Aggregate Rece...

Страница 22: ...n 286 mm 2 625 in 67 mm 1 25 in 32 mm 1 1 lb 0 5 kg SPECIFICATIONS AC POWER SUPPLY Min Typ Max Power Supply Input Voltage VAC 100 110 240 Input Frequency Hz 40 400 Power Factor 92 Output 1Voltage VDC...

Страница 23: ......

Страница 24: ...WDMUM 1401 18040 412 Guilford Rd Annapolis Junction MD 20701 fiberplex com clients fiberplex com 301 604 0100...

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