KTI Networks KC-350-C, KC-350-SL2, KC-350-SL3, KC-350-T, KC-350-SL4 Installation Manual

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PoE Powered

10/100BASE-TX to 100BASE-FX

Media Converters

KC-350 series

Installation Guide

DOC.171215A

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(C) 2017 KTI Networks Inc. All rights reserved. No part of this documentation may be reproduced in
any form or by any means or used to make any directive work (such as translation or transformation)
without permission from KTI Networks Inc.

KTI Networks Inc. reserves the right to revise this documentation and to make changes in content from
time to time without obligation on the part of KTI Networks Inc. to provide notification of such
revision or change.

For more information, contact:

United States KTI Networks Inc.
P.O. BOX 631008
Houston, Texas 77263-1008

Phone: 713-2663891
Fax: 713-2663893
E-mail: kti@ktinet.com
URL: http://www.ktinet.com/

International Fax: 886-2-26983873
E-mail: kti@ktinet.com.tw
URL: http://www.ktinet.com.tw/

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The information contained in this document is subject to change without prior notice. Copyright (C)
All Rights Reserved.

TRADEMARKS

Ethernet is a registered trademark of Xerox Corp.

FCC NOTICE

This device complies with Class B Part 15 the FCC Rules. Operation is subject to the following two
conditions: (1) This device may not cause harmful interference, and (2) this device must accept any
interference received including the interference that may cause.

CE NOTICE

Marking by the symbol indicates compliance of this equipment to the EMC directive of the European
Community. Such marking is indicative that this equipment meets or exceeds the following technical
standards:

EMC Class B
EN 61000-6-3
EN55022
EN61000-3-2
EN61000-3-3
EN 55024
IEC 61000-4-2
IEC 61000-4-3
IEC 61000-4-4
IEC 61000-4-5
IEC 61000-4-6
IEC 61000-4-11

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Table of Contents

1. Introduction ................................................................................................................................ 5

1.1 Key Features ....................................................................................................... 5

1.2 Specifications ...................................................................................................... 6

1.3 Optical Specifications ........................................................................................ 10

1.4 Special Functions .............................................................................................. 11

1.4.1 Auto MDI/MDI-X Function .............................................................................. 11

1.4.2 Auto-negotiation Function .............................................................................. 11

1.4.3 Far End Fault Function ................................................................................... 11

1.4.4 Link Fault Pass Through Function .................................................................. 12

2. Installation ................................................................................................................................13

2.1 Unpacking ......................................................................................................... 13

2.2 Safety Cautions ................................................................................................. 13

2.3 Mounting the Device ......................................................................................... 14

2.4 Powered by PoE over Cat.5 .............................................................................. 15

2.5 Powered by External Power Adapter ................................................................. 16

2.6 Making TP Port Connection .............................................................................. 17

2.7 Making FX Port Connection .............................................................................. 18

2.8 LED Indicators .................................................................................................. 20

3. Optional Configuration Settings ...............................................................................................21

3.1 User Inaccessible Jumpers ............................................................................... 21

3.1.1 Forwarding Mode Setting JP1 ........................................................................ 22

3.1.2 802.3x Function Setting JP2 .......................................................................... 23

3.1.3 FX Duplex Setting JP3 ................................................................................... 23

3.2 JP1-JP3 Factory Default Settings ...................................................................... 23

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1. Introduction

The 10/100BASE-TX to 100BASE-FX media converter series provides a media conversion allowing
high-speed integration of fiber optic and twisted-pair segments. With 10BASE-T and 100BASE-TX
support, the converters provide seamless translation between Ethernet and Fast Ethernet networks.

Because of 802.3af compliance, the converters can draw the power via Cat.5 cable connected to a PoE
PSE switch or mid-span injector in addition to being powered by typical external power adapter. This
feature makes the converter ideal for remote areas of a network without AC power outlets.

1.1 Key Features

 Convert speed and media type with full wire speed conversion
 Support 10Mbps and 100Mbps speed on TP connections
 Auto-negotiation and auto MDI/MDI-X detection function
 Link fault pass through function
 Provide manual configuration settings for TP port to support connection to non-auto-negotiation

devices

 Transparent to 802.1Q VLAN tagged packets
 Far End Fault function on FX port
 Support wide range of fiber options on the FX port
 Provide user-inaccessible settings for specific system applications
 Low power consumption
 IEEE 802.3af compliant PoE PD (Powered Device) design

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1.2 Specifications

Twisted-Pair Interface (TP Port)

Connector Shielded RJ-45
Pin Assignments Auto MDI/MDI-X detection
Signal Compliance IEEE 802.3 10BASE-T, 802.3u 100BASE-TX
Data Speed 10Mbps or 100Mbps
Duplex Mode Half-duplex or Full-duplex
Configuration Auto-negotiation capable and optional forced manual settings
Cable Types 10Mbps - Category 3, 4, or 5 UTP
100Mbps - Category 5 UTP
Supported Link Distance Up to 100 meters

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Fiber Optic Interface (FX Port)

Signal Compliance IEEE 802.3u 100BASE-FX
Connector SC, ST or Single SC
Data Speed 100Mbps
Duplex Mode Full-duplex and optional half duplex
Cable Types Multimode (MMF) - 50/125, 62.5/125 m
Single mode (SMF) - 9/125 m
Supported Link Distance MMF up to 2km
SMF up to 100km
Single SMF WDM up to 40km
Eye Safety compliance IEC825 Class 1

User Accessible Settings (SW)
NO. SETTING STATE FUNCTION

SW1 TP Port Configuration OFF Auto-negotiation (default)
ON Forced mode
SW2 TP Port Duplex OFF Full duplex (default)
ON Half duplex
SW3 TP Port Speed OFF 100Mbps (default)
ON 10Mbps
SW4 Link Fault Pass Through OFF Disable (default)
ON Enable
SW5 Reserved

Optional Settings (User inaccessible JP1-JP3 on board)
NO. SETTING STATE FUNCTION

JP1 Forwarding mode Open Store-and-forward (default)
Short Smart-forward mode
JP2 802.3x function Open Enable (default)
Short Disable
JP3 FX port duplex Open Full duplex mode (default)
Short Half duplex mode

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LED Indicators
LED DISPLAY STATE INTERPRETATION

PWR Power status ON Power on
OFF Power off
TP LINK TP port link status ON Link up and no traffic
OFF Link fault
Blink Rx/Tx activities
TP 100M TP port speed status ON 100Mbps
OFF 10Mbps
TP FDX TP port duplex status ON Full duplex
OFF Half duplex
Blink Collisions on half duplex
FX LINK FX port link status ON Link up and no traffic
OFF Link fault
Blink Rx/Tx activities
FX OL FX port optical link ON Optical signal is detected
OFF No optical signal

PoE (Power over Ethernet)

Standard IEEE 802.3af PD (Powered Device)
Power Reception TP port RJ-45 Pin 1,2,3,6 or Pin 4,5,7,8
Input Voltage 36 ~ 57VDC via Cat.5
Power Classification Class 1

DC Power Input

DC Input Jack D 6.3mm D 2.0mm
Operating Input Voltages +7V ~ +57V

Power Consumption 2W max. (0.27A @+7.5V)
Power Supply Options External AC-DC power adapters
Input options: AC 100V/120V/230V/240V
Rated output: DC7.5V 500mA min.

Basic Information

Forwarding Throughput Full wire speed at 100M full duplex
10Mbps - 14,880 pps at 64-byte packets
100Mbps - 148,800pps at 64-byte packets
Packet Types Transparent and no modification for

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- IEEE 802.3 standard packets

- IEEE 802.1Q VLAN tagged packets
Packet Length Up to 1522 bytes at store-and-forward mode
No limit at smart-forward mode 100to100
Flow Control Back-pressure for half-duplex mode

802.3x pause-frame base for full duplex mode

Mechanical

Dimension 23mm x 72.5mm x 108mm (LxWxD)
Housing Enclosed metal with no fan
Mounting Desktop, Wall mount, Optional - Din-Rail
Weight 210g

Environmental

Operating Temperature -5oC ~ 50oC
Storage Temperature -20oC ~ 80oC
Relative Humidity 5% ~ 95%

Certificate

FCC Part 15 Class B
CE/EMC EMI EN50081-1 Class B, EMS EN55024
CE/LVD EN 60950

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1.3 Optical Specifications

The media converter series provides the following fiber options:

Model: KC-350-X

Duplex Fiber Series

X Port Fiber Wavelength Tx Power Rx Sensitivity Rx Max.

T ST MMF 1310nm -20 ~ -14dBm -32dBm -8dBm
C SC MMF 1310nm -20 ~ -14dBm -31dBm 0dBm
SL2 SC SMF 1310nm -15 ~ -7dBm -32dBm -3dBm
SL3 SC SMF 1310nm -15 ~ -8dBm -34dBm 0dBm
SL4 SC SMF 1310nm -5 ~ 0dBm -34dBm -3dBm
SL6 SC SMF 1310nm -5 ~ 0dBm -35dBm 0dBm
SL8 SC SMF 1310nm 0 ~ +5dBm -36dBm 0dBm
SL10 SC SMF 1550nm 0 ~ -5dBm -35dBm 0dBm
SL12 SC SMF 1550nm 0 ~ +5dBm -35dBm 0dBm

Single Fiber Bi-Di WDM Series

X Port Fiber Wavelength Tx Power Rx Sensitivity Rx Max.

W3520 SC SMF Tx 1310nm -14 ~ -8dBm -31dBm 0dBm
Rx 1550nm
W5320 SC SMF Tx 1550nm -14 ~ -8dBm -31dBm 0dBm
Rx 1310nm
W3540 SC SMF Tx 1310nm -8 ~ 0dBm -34dBm 0dBm
Rx 1550nm
W5340 SC SMF Tx 1550nm -8 ~ 0dBm -34dBm 0dBm
Rx 1310nm

Single Mode CWDM Series

X Port Fiber Wavelength Tx Power Rx Sensitivity Rx Max.

CxxW40 SC SMF Tx 1xx0nm -5 ~ 0dBm -35dBm 0dBm
Rx 1100-1650nm
CxxW80 SC SMF Tx 1xx0nm 0 ~ +5dBm -37dBm 0dBm
Rx 1100-1650nm

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1.4 Special Functions

1.4.1 Auto MDI/MDI-X Function

This function allows the TP port to auto-detect the twisted-pair signals and adapts itself to form a valid
MDI to MDI-X connection with the remote connected device automatically.

1.4.2 Auto-negotiation Function

When TP port is set on Auto-negotiation mode (SW1: ON), it is featured with auto-negotiation
function and full capability. It performs a negotiation process for the speed and duplex configuration
with the connected device automatically when each time a link is being established.

1.4.3 Far End Fault Function

The FX port is facilitated with this function, which conforms to IEEE 802.3u 100BASE-FX
specifications. When the FX port detects a link failure on its receiving circuitry, it will send out an
FEFI (Far End Fault Indication) signal to the remote connected device to indicate a remote fault is
detected. It also is capable to receive FEFI signal sent from the remote link partner. Upon receiving an
FEFI signal, it indicates a link failure occurred on the transmitting path. This function allows the
converter to report a fiber link fault even when a link failure occurred on transmitting fiber cable.

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1.4.4 Link Fault Pass Through Function

When this function is enabled, a link fault detected on the TP port will force a link down on the FX
port. Similarly, a link fault detected on the FX port will also force a link down on the TP port. As
illustrated in the following figure, this function allows passing TP link fault to the remote link partner
and makes the converter like a TP cable extender.

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2. Installation

2.1 Unpacking

Check that the following components have been included:

 Installation guide (or contained in the product CD)
 The 10/100 Media Converter

If any item is found missing or damaged, please contact your local reseller for replacement.

2.2 Safety Cautions

To reduce the risk of bodily injury, electrical shock, fires, and damage to the product, observe the
following precautions.

 Do not service any product except as explained in your system documentation.
 Opening or removing covers may expose you to electrical shock.
 Only a trained service technician should service components inside these compartments.
 If any of the following conditions occur, unplug the product from the electrical outlet and replace the part or

contact your trained service provider:

- The power cable, extension cable, or plug is damaged.

- An object has fallen into the product.

- The product has been exposed to water.

- The product has been dropped or damaged.

- The product does not operate correctly when you follow the operating instructions.

 Do not push any objects into the openings of your system. Doing so can cause fire or electric shock by

shorting out interior components.

 Operate the product only from the type of external power source indicated on the electrical ratings label. If

you are not sure of the type of power source required, consult your service provider or local power company.

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2.3 Mounting the Device

Desktop Mounting

The media converter can be mounted on a desktop or shelf. Make sure that there is proper heat
dissipation from and adequate ventilation around the device. Do not place heavy objects on the device.

Wall Mounting

The media converter also can be mounted on a wall. On bottom of the device, wall mounting hole is
provided for wall mounting.

Din-rail Mounting

For a Din-Rail chassis, the media converter can support mounting on a Din-Rail. An optional Din-Rail
bracket, KC-3DR can be purchased separately. Consult your dealer for details. The following figures
show an example after bracket installation:

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2.4 Powered by PoE over Cat.5

Power supply by a Mid-Span PoE Injector

The following figure illustrates the converter is powered by the PoE delivered from a remote mid-span
PoE injector over Cat.5.

Power supply by a PoE PSE Switched Port

The following figure illustrates the converter is powered by the PoE delivered from a remote PoE PSE
switch over Cat.5.

Note:

1. The Cat.5 used can be the standard Cat.5 cable for Ethernet connection.

2. Check the power LED on the converter to see whether the power is received on the Cat.5.

3. For the compatibility, the remote PoE PSE used must be IEEE 802.3af compliant.

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2.5 Powered by External Power Adapter

The converter can support being powered by an external power adapter as an alternative when PoE
power is not available on Cat.5. Before you begin the installation, check the AC voltage of your area.
The AC power adapter, which is used to supply the DC power for the unit should have the AC voltage
matching the commercial power voltage in your area.

The AC Power Adapter Specifications

AC input power: AC power voltage of your area,
Rated input options ­ AC120V/60Hz, AC230V/50Hz,
AC100V/50-60Hz, Rated AC240V/50Hz
Rated output - DC7.5V 500mA min.

The steps to apply the power to the converters are:

1. Connect power adapter DC plug to the DC input jack located on the back of the converter before

connecting to the AC outlet.

2. To ensure against accidental disconnection, tie the DC cable with the cable tie located the back of

the converter.

3. Connect the power adapter to the AC outlet.

4. Check Power LED indication.

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2.6 Making TP Port Connection

TP port is featured to support connection to:

 Auto-negotiation devices
 Auto-negotiation incapable 10BASE-T devices
 Auto-negotiation incapable 100BASE-TX devices

Network Cables

10BASE-T: 4-pair UTP Cat. 3,4,5, EIA/TIA- 568 100-ohm STP
100BASE-TX: 4-pair UTP Cat. 5, EIA/TIA-568 100-ohm STP
Link distance: Up to 100 meters

Configuration Setup

To make a proper connection, the following configuration settings are recommended:

TP port link partner SW1 SW2 SW3

Auto-negotiation device Off: auto Off: full duplex Off: 100M
Fixed 10M half duplex device On: forced On: half duplex On: 10M
Fixed 100M half duplex device On: forced On: half duplex Off: 100M
Fixed 10M full duplex device On: forced Off: full duplex On: 10M
Fixed 100M full duplex device On: forced Off: full duplex Off: 100M

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2.7 Making FX Port Connection

FX port operates on 100Mbps and full duplex (factory default). A variety of fiber options is provided
as follows:

Model: KC-350-X

Duplex Fiber Series

X Connector Wavelength Fiber Ref. distance

T ST 1310nm Duplex MMF 2km
C SC 1310nm Duplex MMF 2km
SL2 SC 1310nm Duplex SMF 20km
SL3 SC 1310nm Duplex SMF 30km
SL4 SC 1310nm Duplex SMF 40km
SL6 SC 1310nm Duplex SMF 60km
SL8 SC 1310nm Duplex SMF 80km
SL10 SC 1550nm Duplex SMF 100km
SL12 SC 1550nm Duplex SMF 120km

Duplex Fiber CWDM Series

X Connector Wavelength Fiber Ref. Distance

CxxW40 SC Tx 1xx0nm SMF 40km
Rx 1100 - 1650nm

CxxW80 SC TX 1xx0nm SMF 80km
RX 1100 - 1650nm

Tx 1xx0nm: 1470, 1490, 1510, 1530, 1550, 1570, 1590, 1610nm

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Single Fiber Bi-Di WDM Series

X Connector Wavelength Fiber Ref. Distance

W3520 Bi-Di SC Tx 1310nm Single SMF 20km
Rx 1550nm
W5320 Bi-Di SC Tx 1550nm Single SMF 20km
Rx 1310nm
W3540 Bi-Di SC Tx 1310nm Single SMF 40km
Rx 1550nm
W5340 Bi-Di SC Tx 1550nm Single SMF 40km
Rx 1310nm

Since the WDM single fiber media converters use different wavelengths for transmission and receiving
respectively, the link partner device located on the remote end of the single fiber should match the
wavelength used on the single fiber converter.

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2.8 LED Indicators

Link Fault Pass Through Function is disabled

LED Display Status Interpretation
PWR Power status On Power on
Off Power off
TP LINK TP port link status On Link up and no traffic
Off Link fault
Blink Rx/Tx activities
TP 100M TP port speed status On 100Mbps
Off 10Mbps
TP FDX TP port duplex status On Full duplex
Off Half duplex
Blink Collisions on half duplex
FX LINK FX port link status On Link up and no traffic
Off Link fault
Blink Rx/Tx activities
FX OL FX port optical link On Optical signal is detected
Off No optical signal is detected

Link Fault Pass Through Function is enabled

TP LINK FX LINK FX OL Interpretation
On On On Both TP and FX ports link up
Off Off On (1) TP port link fault or
(2) FX port received FEFI signal (FX port Tx path failed.)
Off Off Off (1) TP port link fault or
(2) FX port Rx link failure detected

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3. Optional Configuration Settings

The media converter provides additional configuration settings which are user-inaccessible. The
settings are built on the board inside the product case. The settings are provided for technical installers
to adapt the converter to fit some specific application needs.

3.1 User Inaccessible Jumpers

The setting jumpers are not accessible by users generally. For accessing these jumpers, the upper case
must be removed from the product. Removing case must perform by an authorized and experienced
technical person. The setting jumper block is located on the position shown below:

The setting functions are as follows:

JP1 Forwarding mode setting Open - Store-and-forward mode
Short - Smart-forward mode
JP2 802.3x function setting Open - Enable
Short - Disable
JP3 FX port duplex setting Open - Full duplex mode
Short - Half duplex mode

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3.1.1 Forwarding Mode Setting JP1

The following table lists the forward method used in different TP to FX conversions:

JP1 Setting TP port to/from FX port Forward method

Store-and-forward 10BASE-T to 100BASE-FX Store and forward
100BASE-TX to 100BASE-FX Store and forward
Smart-forward 10BASE-T to 100BASE-FX Store and forward
100BASE-TX to 100BASE-FX Direct conversion

On smart-forward mode, the converter can change to direct conversion automatically when it detects
same speed on both TP port and FX port. Direct conversion method converts the signal between TP
port and FX port without storing the received packet on one port then forwarding to another port. The
media converter operates with the minimum latency.

Note:

1. In direct conversion, be sure both devices connected to the TP port and FX port have same duplex

mode for proper transmission.

2. In direct conversion, the 802.3x function is disabled and the media converter will not generate

pause frame, but just forwards the received pause frame directly from one port to another port.

3. In direct conversion, the media converter is not limited to the maximal length of the receiving

packets.

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3.1.2 802.3x Function Setting JP2

IEEE 802.3x function is the flow control method used for full duplex operation on TP port and FX port
under store and forward mode. This method uses pause frames for one port to stop further transmission
from its link partner.

3.1.3 FX Duplex Setting JP3

This setting is used to set the duplex mode of the FX port.

3.2 JP1-JP3 Factory Default Settings

The factory default settings for JP1, JP2, and JP3 are as follows:

JP1 Open Store-and-forward mode
JP2 Open 802.3x function is enabled
JP3 Open FX port full duplex