Electrons travel at approx. constant speed ( 20 cm or 8” per ns, 1 ns = 0.000 000 0001 s NVP * speed of light) Propagation.

LA CERTIFICACION EN EL CABLEADO

ESTRUCTURADO DE cobre

Alvaro Cayo Urrutia

Lima-Perú

Niveles de Comprobación en Campo

Niveles de Comprobación en Campo (Cont.)

“Certificación”

Estándares de Cableado en el Mundo

Tipos de Estándares

Use the least expensive cable that meets your performance expectations…

Certification is for the Field not the Lab

How to Read Test Results

Propagation Delay

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Electrons travel at approx. constant speed

( 20 cm or 8” per ns,

1 ns = 0.000 000 0001 s

NVP * speed of light)

Propagation delay

(max 555 ns later ..)

Traveling signals is like electrons following a somewhat rocky path

Insertion Loss on Test Report

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Atenuación

(Perdida de inserción) Menos electrones!

Calor! Calor!

Existen baches en el camino….

NEXT on Test Results

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Crosstalk!!

A level problem in the electronic road will cause some electrons to fall on an adjacent road

On top of that: the road is not level and electrons fly off!

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Near End Crosstalk is by the electrons that return back to the beginning

Near End Crosstalk (NEXT)

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Far End Crosstalk is by the electrons that continue to the far end

Far end crosstalk (FEXT)

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At a receiver input you need more signal electrons than stray electrons

Combine two effects: attenuation and NEXT: S/N = ACR

Look here!

Poor ACR (and NEXT problems)can lead to FCS and CRC errors and – Retransmissions!

FCS/ACR Errors Lead to Slow NetworksBelow is a an example of a typical TCP conversation

Bad Cabling = Slow Network

Antiguos Parámetros de Comprobación en Campo: TSB-67

La Categoría 5 Parámetros de Test

El “Nuevo” Modelo de Transmisión

Transmisión por Par Múltiple

Power Sum ELFEXT

Transmisión Full Duplex

Parámetros de Test Categoría 5e/6

Comparación de Rendimiento

Un “Enlace de Cableado” Instalado

La Medida de Canal

La Medida de Enlace Permanente

¿Por qué el “Enlace Permanente”?

Características Fundamentales de NEXT y Pérdida de Retorno

Medida NEXT del PL

Pérdida de Retorno – Un Reto Mayor de Test

Pérdida de Retorno – Requisitos del Adaptador

Solución de Problemas con el DTX

Defectos NEXT y NEXT

Ventajas de los Diagnósticos NEXT

Solución de Problemas NEXT con el DTX

RL y Defectos RL

Ventajas de los Diagnósticos RL

Solución de Problemas RL con el DTX

Analizando las interferencias de Alien CrossTalk

Why to test for Alien Next?

When to Test for Alien Cross Talk

Alien NEXT Test Results

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Alien Crosstalk

Alien crosstalk occurs between cables

Alien NEXT

Cat 6a shielded and unshielded

ANEXT – Picking Disturbed and Disturbing cables

Selecting a disturbed/victim cable

Selecting the disturbers (cables to energize)

Selecting the disturbers (cables to energize)

All the Cables in the Bundle are Disturbers – keep those bundles small

ANEXT and AFEXT Along the Length of the Links

ANEXT and AFEXT For Varying Link Lengths

How to test Class F and Class FA

First Select Your Test Limit

Selecting the Test Limit

Use the correct adapters for Class FaCat 7 patch cords/Permanent Link Adapters

Class FA FIELD testing

Here we see +/- 2.75 dB @600MHz

(Level IV accuracy @1000MHz is >+/-5dB)

How to Read Test Results – Class F

How to Read Test Results – Class F

LinkWare 7

WHAT’S NEW IN LINKWARE 7.X?

Linkware stats now included

Optifiber pro support

Verifies Software of tester

Verifies calibration of dtx

Re-certify DTX fiber loss results

Sort on margin or loss

NEW OTDR Report format

New zoom feature on graphs

tabs

Supports 40G & 100G fiber

Larger files handled much more gracefully

Larger files handled much more gracefully

A few testers missing from linkware 7.x

Acrobat writer built in

Our competition spends little effort here

What is new in Copper

Cat 5e, Cat 6, Cat 6A?

What is coming

What about Cat 7??

Thank you for your time

Q&A