Workshop on OptiSys

8/16/2019 Workshop on OptiSys

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&'(E)*!+E,

OptiSys Introduction

OptiSys Software Features

OptiSys Software Leaning Step-by-step

OptiSys Optical System Design

OptiSys Analysis & Observations

OptiSys esearc! "rends


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OptiSys Software Learning

Step!ystep


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OptiSys Optical System

Design, Analysis & Observations


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*as-1: Design Anal$/e &ti%al

*ransmitter

Follow these steps: #$ LAS% as an Optical #arrier Source,

A- BS '%lectrical Data( wit! )* Format+ B- PRBS (Electrical Data) with RZ Format,MZM as an Intensit Mo!ulator to Mo!ulate "arrier #s Per

Electrical Data Stream ($RZ % RZ) to &enerate OOK si&nal, #nal'e the ransmission step step throu&h *isual +irar

"omponents an! $ote our serations.


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*as-2: Design Anal$/e &ti%al*ransmitter ith &ti%al Fierith Di3erent 4engths

Follow these steps:

In as/-0 % #!! ptical Fier with stan!ar! speci1ications, "han&e !i11erent len&ths o1 1ier (23,42,0335m) an! chec/

optical power an! isualers6 response results,

#nal'e the ransmission step step throu&h *isual +irar



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*as-: Design Anal$/e &ti%al ReceiverResults for *ransmitter and &ti%al Fier ithDi3erent 4engths

Follow these steps: In as/-7 % #!! PI$ Dio!e as a Receier with stan!ar! speci1ications

("onersion ptical to Electrical),

#!! Bessel Filter a1ter PI$ Dio!e

#!! BER #nal'er, "hec/ response with % without 1ilter.

(Comparison can also be made with other filters from its library) "hec/ BER % Ee penin& at (23,42,0335m) len&th o1 Fier

#nal'e the ransmission step step throu&h *isual +irar"omponents an! $ote our serations.


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*as-: Design Anal$/e ,$stem $!n%reasing 4A,E7 *ransmitted oer inOptical Fiber System for Attenuated Signal

Follow these steps: In as/-8, Increase +aunch Power o1 +#SER up to 03,02, 73

!Bm an! "hec/ BER % Ee penin& at (23,42,0335m) len&th o1

Fier

#nal'e the ransmission step step throu&h *isual +irar"omponents an! $ote our serations.


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Task-5: esign ! Analy"e System by #sing $FAin Optical Fiber System for Attenuated Signal%

Follow these steps:

In as/-8, 9se EDF# an! increase &ain up to 03,02,73!Bm an! "hec/ BER % Ee penin& at (23,42,0335m)len&ths o1 Fier.

#ppl Pre or Post #mpli1ication an! chec/ !i11erence, #nal'e the ransmission step step throu&h *isual+irar "omponents an! $ote our serations.


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Task-&: esign ! Analy"e System #sing ' () *+annels ,it+../0" c+annel spacing Optical Fiber System%

Follow these steps: Repeat as/-8 1our times (Repeat more i1 more channels are reuire!), "han&e 1reuenc o1 each +#SER source 0;8.0, 0;8.7, 0;8.8 an! 0;8.<

hain& channel spacin& o1 033 =>',

(LASER Array can also be used for this purpose)

#1ter MZM Mo!ulator #!! < "hannel ?DM Multiple@er(Also ES WDM or !" Mu! can e use!)

9se Sin&le ptical Fier etween ?DM Mu@ an! ?DM DeMu@ #!! Receier with each port o1 < "hannel ?DM Multiple@er Run Simulation on stan!ar! con!ition, chec/ errors

Increase Ban!wi!th o1 ?DM Mu@ % DeMu@ an! chec/ result #nal'e the ransmission step step throu&h *isual +irar "omponents

an! $ote our serations.


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Task-1: esign ! Analy"e System #sing ' () *+annels

,it+ 5. /0" c+annel spacing Optical Fiber System%Follow these steps: In as/-A, "han&e 1reuenc o1 each +#SER source 0;8.0, 0;8.02,

0;8.73 an! 0;8.72 hain& channel spacin& o1 23 =>',

(LASER Array can also be used for this purpose)

"han&e 1reuenc o1 each Mu@ % DeMu@ hain& channel spacin& o123 =>' Run Simulation on stan!ar! con!ition, chec/ errors Increase Ban!wi!th o1 ?DM Mu@ % DeMu@ an! chec/ result #nal'e the ransmission step step throu&h *isual +irar



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*as-8: Design Anal$/e &ti%al D,K *and 7

Follow these steps: 9se DPS5 ransmitter

9se DPS5 Receier

"onnect oth with ptical Fier

"hec/ BER % Ee penin& at (23,42,0335m) len&th o1 Fier

Repeat #oe 1or ?DM ransmission o1 DPS5 "hannels




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*as-9: Design Anal$/e &ti%al D,K* 7

Follow these steps: 9se DPS5 ransmitter (!i11erent tpes)

9se DPS5 Receier

"onnect oth with ptical Fier

"hec/ BER % Ee penin& at (23,42,0335m) len&th o1 Fier

Repeat #oe 1or ?DM ransmission o1 DPS5 "hannels




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Task-.: esign ! Analy"e 2assive Optical3et,ork 42O3%

Follow these steps: In as/-8, 9se Splitter to split si&nal into two Sen! First part to R@ as preiousl !i! 1or !own

steam Sen! Secon! Part 1or remo!ulation o1 up stream. #t +, R@ part o1 up stream is use!.

#nal'e the ransmission step step throu&h *isual+irar "omponents an! $ote our serations.


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OptiSys Research Trends


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7esults ;or 7esear%h aers:Design & Analy,e Optical Fiber System wit! Lengt!s and compareresults t!roug! grap!s

- ".ion Lengt! /s . ower

0- ".ion Lengt! /s B%1S)

2- . ower /s B%1S)

3- Ampli4er 5ain /s ".ion Lengt!

6- LAS% ower /s ".ion Lengt!

7- epeat All Above Single #!annel /s $D8 8ultiple.ed #!annel

9- epeat all Above On 6:5;, #!annel Spacing

- ?sing Advanced 8odulation Formats and epeat Abovecalculation

:-?se 8odern 8ultiple.ing "ec!ni@ues - ?se of 8odern Devices

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Workshop on OptiSys

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