Transition Networks CFETF1011-200, CFETF1013-200, CFETF1014-200, CFETF1015-200, CFETF1016-200 User Manual

COMPLIANCE INFORMATION

UL Listed
C-UL Listed (Canada)
CISPR/EN55022 Class A & B

FCC Regulations

This equipment has been tested and found to comply with the limits for a class A & B 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 the user’s own expense.

Canadian Regulations

This digital apparatus does not exceed the Class A & B limits for radio noise for digital apparatus set out
on the radio interference regulations of the Canadian Department of Communications.

Le présent appareil numérique n'émet pas de bruits radioélectriques dépassant les limites applicables
aux appareils numériques de la class A & B prescrites dans le Règlement sur le brouillage radioélectrique
édicté par le ministère des Communications du Canada.

European Regulations

Warning

This is a Class A & B product. In a domestic environment this product may cause radio interference in
which case the user may be required to take adequate measures.

Achtung !

Dieses ist ein Gerät der Funkstörgrenzwertklasse A & B. In Wohnbereichen können bei Betrieb dieses
Gerätes Rundfunkstörungen auftreten, in weichen Fällen der Benutzer für entsprechende
Gegenmaßnahmen werantwortlich ist.

Attention !

Ceci est un produit de Classe A & B. Dans un environment domestique, ce produit risque de créer des
interférences radioélectriques, il appartiendra alors à l’utilsateur de prende les measures spécifiques
appropriées

Trademark Notice

All registered trademarks and trademarks are the property of their respective owners.

Copyright Restrictions

© 2000, 2001 TRANSITION Networks.
All rights reserved. No part of this work may be reproduced or used in any form or by any means –
graphic, electronic, or mechanical – without written permission from TRANSITION Networks.

Printed in the U.S.A. 33171.C

CAUTION: RJ connectors are NOT INTENDED FOR CONNECTION TO THE
PUBLIC TELEPHONE NETWORK. Failure to observe this caution could result in
damage to the public telephone network.

Der Anschluss dieses Gerätes an ein öffentlickes Telekommunikationsnetz in den EG-Mitgliedstaaten
verstösst gegen die jeweligen einzelstaatlichen Gesetze zur Anwendung der Richtlinie 91/263/EWG zur
Angleichung der Rechtsvorschriften der Mitgliedstaaten über Telekommunikationsendeinrichtungen
einschliesslich der gegenseitigen Anerkennung ihrer Konformität.

TRANSITION Networks CFETF10xx series Fast Ethernet™media converters,

designed to be installed in a PointSystem

™

Conversion Center

™

, connect

100BASE-TX shielded or unshielded
twisted-pair copper cable to 100BASE-FX

multimode or singlemode fiber-optic

cable.

*In CFETF10xx model designation, 10
represents the100BASE-TX RJ-45 connector;
xx represents the selectable fiber connector
installed on the media converter.

100BASE-TX to 100BASE-FX

Slide-In-Module Media Converters

CFETF10xx*-200

USER’S GUIDE

CFETF1011-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and a set of RX
(receive) and TX (transmit) ST 100BASE-FX
connectors to multimode 1300 nm fiber­optic cable.

CFETF1013-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) MM-SC
100BASE-FX connector to multimode
1300 nm fiber-optic cable.

CFETF1014-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) SC 100BASE-FX
connector to singlemode 1300 nm fiber­optic cable.

CFETF1015-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) SC 100BASE-FX
connector to singlemode 1300 nm fiber­optic cable.

CFETF1016-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) SC 100BASE-FX
connector to singlemode 1300 nm fiber­optic cable.

CFETF1017-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) SC 100BASE-FX
connector to singlemode 1550 nm fiber­optic cable.

CFETF1018-200

Provides an RJ-45 twisted-pair copper
100BASE-TX connector and an RX
(receive) and TX (transmit) MT-RJ
100BASE-FX connector to multimode
1300 nm fiber-optic cable.

10BASE-T

INPORT

MCCM10

MGMT MASTER

RX

TX

LNK

PWR

OUTPORT

RESET

DB-9

12C

12C-1TERM

INIT

CFMFF100

10BASE-2

CECF100

CFMFF100

0

50

‰

CFMFF100

CETTF100

Link

Alert

E

D

CETCF100

CFETF110

CFMFF100

CFMFF100

LKS

PWR

LKM

LKS

PWR

LKM

Multimode

Singlemode

TX

RX

TX

RX

LKF

PWR

RXF

RXC

LKC

LA

PWR

RXF

RXC

LNK

COL

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX

10/100TX

RX

TX

10/100SX

CFETF100

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX

100BASE-FX

Link

Alert

E

D

0

50

‰

Multimode

Singlemode

TX

RX

TX

RX

LA

PWR

RXF

RXC

LNK

COL

LKS

PWR

LKM

10BASE-2

10BASE-FL

10BASE-T

LKS

PWR

LKM

LKS

PWR

LKM

Multimode

Singlemode

TX

RX

TX

RX

Multimode

Singlemode

TX

RX

TX

RX

Multimode

Singlemode

TX

RX

TX

RX

10BASE-T

10BASE-FL

Media
Conversion
Center

Power

In Use

1

Power

In Use

2

CFETF10xx in the Network . . . . . . . . .2

Installation . . . . . . . . . . . . . . . . . . . .5

Operation . . . . . . . . . . . . . . . . . . . . .6

Fault Isolation and Correction . . . . .8

Cable Specifications . . . . . . . . . . . . .9

Technical Specifications . . . . . . . . .11

Compliance Information . . . . . . . . .12

CFETF10xx IN THE NETWORK

The CFETF10xx receives and transmits network signals in either full­duplex or half-duplex mode, depending upon the network devices to
which the media converter is attached and upon the Auto-negotiation
switch setting. (See page 4 for switch setting description.)

Fast Ethernet

™

in full-duplex mode allows the maximum cable distances

shown in the cable specifications on page 10. Fast Ethernet

™

in half-

duplex mode requires attention to the 512-bit Rule. (See page 3.)

Network Configurations

Install two CFETF10xx series media converters in series to extend, over
fiber, the distance between two 100BASE-TX devices:

Alternatively, use one CFETF10xx media converter to connect a
100BASE-TX terminal device and a 100BASE-FX hub, switch, or router.

Or use one CFETF10xx media converter to connect a 100BASE-TX hub,
switch, or router and a 100BASE-FX terminal device.

TECHNICAL SPECIFICATIONS

Standards IEEE 802.3 1998
Data Rate 100 Mb/s

Dimensions 3.4" x 0.86" x 5.0" (86mm x 22mm x 127mm)
Weight 8 oz (approximate)
Power Consumption 3.4 watts
Environment Typical Operating Temperature*: 0-50°C (32°to 122°F )

Storage Temperature: -20 to 85°C
Humidity 10-90%, non condensing
Altitude 0-10,000 feet

Warranty Lifetime
*Operating temperature range for this Slide-In-Module depends on the physical

characteristics and the installation configuration of the TRANSITION Networks
chassis in which this Slide-In-Module will be installed. See the User’s Guide for
the chassis in which this Slide-In-Module will be installed for a discussion of
temperature-related installation constraints.

DECLARATION OF CONFORMITY

Name of Mfg: Transition Networks

6475 City West Parkway, Minneapolis MN 55344 USA
Model: CFETF10xx-200 Series Media Converters
Part Number(s): CFETF1011-200, CFETF1012-200, CFETF1013-200, CFETF1014-200,

CFETF1015-200, CFETF1016-200, CFETF1017-200, CFETF1018-200

Regulation: EMC Directive 89/336/EEC
Purpose: To declare that the CFETF10xx-200to which this declaration refers is

in conformity with the following standards.

EMC-CISPR 22: 1985 Class A&B; EN 55022:1988 Class A&B; EN 50082-1:1992;
EN 60950 A & B4:1997; IEC 801.2, IEC 801.3, and IEC 801.4; IEC 950

I, the undersigned, hereby declare that the equipment specified above conforms to the
above Directive(s) and Standard(s).

_March 16, 2001_____

Stephen Anderson, Vice-President of Engineering Date

10BASE-T

INPORT

MCCM10

MGMT MASTER

RX

TX

LNK

PWR

OUTPORT

RESET

DB-9

12C

12C-1TERM

INIT

CETTF100

CFETF110

LKF

PWR

RXF

RXC

LKC

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX

10/100TX

RX

TX

10/100SX

CFETF100

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX

100BASE-FX

10BASE-T

10BASE-FL

Media
Conversion
Center

Power

In Use

1

Power

In Use

2

PWR

LKC

SPD

FRX

CRX

10/100TX

RX

TX

10/100SX

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX
100BASE-FX

10BASE-T

INPORT

MCCM10

MGMT MASTER

RX

TX

LNK

PWR

OUTPORT

RESET

DB-9

12C

12C-1TERM

INIT

CETTF100

CFETF110

LKF

PWR

RXF

RXC

LKC

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX

10/100TX

RX

TX

10/100SX

CFETF100

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX
100BASE-FX

10BASE-T

10BASE-FL

Media
Conversion
Center

Power

In Use

1

Power

In Use

2

PWR

LKC

SPD

FRX

CRX

10/100TX

RX

TX

10/100SX

SPD

PWR

FRX

CRX

FLNK

CLNK

RX

TX
100BASE-FX

CABLE SPECIFICATIONS (continued)

Copper Cable

Category 5 twisted-pair copper wire is required. Either shielded twisted-pair (STP) or
unshielded twisted-pair (UTP) can be used. DO NOT USE FLAT OR SILVER SATIN WIRE.

CATEGORY 5:

Gauge 24 to 22 AWG
Attenuation 22.0 dB /100m @ 100 MHz
Maximum Cable Distance: 80 meters
The two active pairs in an Ethernet™ network are pins 1 & 2 and pins 3 & 6. Use
only dedicated wire pairs (such as blue/white & white/blue, orange/white &
white/orange), configured as straight through or crossover, for the active pins.

RJ-45 Pin-out: Pin 1=TD+, Pin 2=TD-, Pin 3=RD+, Pin 6=RD-

Media Converter in Full-Duplex Network

In a full-duplex network, maximum cable lengths are determined by the
cables used. See page 10 for cable specifications. THE 512-BIT RULE
DESCRIBED BELOW DOES NOT APPLY IN A FULL-DUPLEX NETWORK.

Media Converter in Half-Duplex Network

NOTE: The 512-Bit Rule applies separately to each collision domain.

USING THE 512-BIT RULE

In a half-duplex network, maximum cable lengths are determined by the
round trip delay limitations of each Fast Ethernet

™ collision domain.

(Switches and routers divide the network into separate Ethernet™ collision
domains.) The 512-Bit Rule determines maximum distances by calculating
the collision domain round-trip delay in bit-times.

To calculate a collision domain round-trip delay, find the longest path
between any two terminal devices in the collision domain. Calculate the

round trip delay by multiplying the
length of the cable (in meters) by the
delay per meter (in bit-times – BT),
then take the sum of all cable delays
plus station (DTE), repeater, and
media converter delays. If the result
is less than or equal to 512 bit-times,
the path is good.

10 meters TP

@ 1.11BT/meter

= 11.1BT

10 meters TP

@ 1.11BT/meter

= 11.1BT

DTE= 50BT

Half-Duplex Collision Domain

Half-Duplex Collision Domain

200 meters fiber

@ 1.0 BT/meter

= 200BT

DTE= 50BT

50.00BT
+11.10BT
+12.00BT

+200.00BT

+12.00BT
+11.10BT
+50.00BT

__________

_

= 346.20BT

DTE= 50BT

10 meters TP

@ 1.11BT/meter

= 11.1BT

150 meters fiber

@ 1.0 BT/meter

= 150BT

10 meters TP

@ 1.11BT/meter

= 11.1BT

Class I

Hub

= 140BT

50.00BT

+11.10BT
+140.00BT
+150.00BT

+12.00BT

+11.10BT

+50.00BT

__________

_

= 424.20BT

Switch/

Router

= 50BT

Full-Duplex - NO Collision Domain

Media
Converter
= 12BT

Media
Converter
= 12BT

Media
Converter
= 12BT

Media
Converter
= 12BT

Class I repeater 140 BT
Class II repeater 92 BT
DTE (PC, switch, router) 50 BT

CFETF10xx 12 BT

1 meter CAT.5 TP cable 1.11 BT
1 meter fiber cable 1 BT
Fast Ethernet switch 50 BT

Crossover

1
2

3
6

Straight Through

Twisted Pair #1

Twisted Pair #1

Twisted Pair #2

Twisted Pair #2

1
2

3
6

1
2

3
6

1
2

3
6

INSTALLATION

CAUTION: Wear a grounding device and observe electrostatic discharge
precautions when setting switch and when installing Media Converter Slide-in­Module in the Media Conversion Center. Failure to observe this caution could
result in damage to, and subsequent failure of, the Media Converter Slide-in­Module.

Set 3-Position Jumper

NOTE: Jumper is located on Media Converter Slide­in-Module circuit board.

Use small needle-nosed pliers or similar device to set
jumper. Refer to drawing for jumper positions.

HARDWARE Converter mode is determined by
4-position switch settings below.

SOFTWARE Converter mode is determined by most­recently-saved on-board microprocessor settings.

Set 4-Position Switch

NOTE: Switch is located on
Media Converter Slide-in­Module circuit board.

Use small flatblade
screwdriver or similar device
to set recessed switches.
Refer to drawing for four­position switch locations.

Auto-negotiation (UP=Enabled) Allows detection of, and adaptation to, full­duplex or half-duplex mode in device attached to copper (100BASE-TX) link.
(DOWN) Disables auto-negotiation to force half-duplex mode in attached
device.

Pause Advertisement (UP=Enabled) Allows auto-negotiation pause. (DOWN)
Allows NO auto-negotiation pause.

NOTE: If the Pause feature is present on all network devices attached to the
media converter(s), enable Pause on the media converter(s). Otherwise,
disable Pause on the media converter(s).

LPT (UP=Enabled) Allows a fault EITHER on the copper OR on the fiber side
of the media coverter to stop signal and data transmission on the other side.
(DOWN) Disables LPT to allow a fault ONLY on the fiber side of the media
coverter to stop signal and data transmission on the other side.

AutoCross

™ (UP=Enabled) Allows straight-through twisted-pair cable to be

used for crossover connections. (DOWN) Disables AutoCross™ and requires
correct (straight-through or crossover) twisted-pair cable to be installed.

CABLE SPECIFICATIONS

The physical characteristics of the media cable must meet or exceed IEEE 802.3 specifications.

Fiber Cable

Bit error rate: ≤10-9

MULTIMODE

Fiber Optic Cable Recommended: 62.5 / 125 µm multimode fiber

Optional: 100 / 140 µm multimode fiber

85 / 125 µm multimode fiber

50 / 125 µm multimode fiber
CFETF1011 1300 nM
Fiber Optic Transmitter Power: min: -19.0 dBm max: -14.0 dBm
Fiber Optic Receiver Sensitivity: min: -30.0 dBm max: -14.0 dBm
Typical Maximum Cable Distance*: 2 kilometers
CFETF1013 1300 nM
Fiber Optic Transmitter Power: min: -19.0 dBm max: -14.0 dBm
Fiber Optic Receiver Sensitivity: min: -30.0 dBm max: -14.0 dBm
Typical Maximum Cable Distance*: 2 kilometers
CFETF1018 1300 nM
Fiber Optic Transmitter Power: min: -19.0 dBm max: -14.0 dBm
Fiber Optic Receiver Sensitivity: min: -33.5 dBm max: -14.0 dBm
Typical Maximum Cable Distance*: 2 kilometers

SINGLEMODE

Fiber Optic Cable Recommended: 9 µm singlemode fiber
CFETF1014 1300 nM
Fiber-optic Transmitter Power: min: -15.0 dBm max: -8.0 dBm
Fiber-optic Receiver Sensitivity: min: -32.5 dBm max: -8.0 dBm
Typical Maximum Cable Distance*: 20 kilometers
CFETF1015 1300 nM
Fiber-optic Transmitter Power: min: -8.0 dBm max: 0.0 dBm
Fiber-optic Receiver Sensitivity: min: -34.0 dBm max: -8.0 dBm
Minimum Attenuation: 8 dB
Typical Maximum Cable Distance*: 40 kilometers
CFETF1016 1300 nM
Fiber-optic Transmitter Power: min: -5.0 dBm max: 0.0 dBm
Fiber-optic Receiver Sensitivity: min: -34.0 dBm max: -7.0 dBm
Minimum Attenuation: 7 dB
Typical Maximum Cable Distance*: 60 kilometers
CFETF1017 1550 nM
Fiber-optic Transmitter Power: min: -5.0 dBm max: 0.0 dBm
Fiber-optic Receiver Sensitivity: min: -34.0 dBm max: -7.0 dBm
Spectral Width 0.4 nm FWHM
Minimum Attenuation: 7 dB
Typical Maximum Cable Distance*: 80 kilometers

*Actual distance dependent upon physical characteristics of network installation.

SOFTWARE MODE

H

S

HARDWARE MODE

H

S

Auto-negotiation UP=ON

toward network connectors toward chassis

AutoCross UP=ON

LPT UP=ON

Pause Advertisement UP=ON

FAULT ISOLATION and CORRECTION

If the media converter fails, isolate and correct the fault by determining the
answers to the following questions and then taking the indicated action:

1. Is the P(o)W(e)R LED on the media converter illuminated?
NO

• Is the media converter inserted properly into the chassis?

• Is the power cord properly installed in the chassis and at the

external power source?

• Does the external power source provide power?

• Contact Technical Support: (800) 260-1312.

YES

• Proceed to step 2.

2. Is the LKC LED on the media converter illuminated?
NO

• Check twisted-pair cables for proper connection.

• Contact Technical Support: (800) 260-1312.

YES

• Proceed to step 3.

3. Is the LKF LED on the media converter illuminated?
NO

• Check fiber cables for proper connection.

• Verify that TX and RX cables on media converter are connected to

RX and TX ports, respectively, on other device.

• Contact Technical Support: (800) 260-1312.

YES

• Proceed to step 4.

4. Is the RXC LED on the media converter flashing?
NO

• If there is NO ACTIVITY on the 100BASE-TX port, proceed to step 5.

• If there is ACTIVITY on the 100BASE-TX port, disconnect and

reconnect the 100BASE-TX cable to restart the initialization process.

• Restart the workstation to restart the initialization process.

• Contact Technical Support: (800) 260-1312.

YES

• Proceed to step 5.

5. Is the RXF LED on the media converter flashing?
NO

• If there is NO ACTIVITY on the 100BASE-FX port, continue below

• If there is ACTIVITY on the 100BASE-FX port, disconnect and

reconnect the fiber cable to restart the initialization process.

• Restart the workstation to restart the initialization process.

• Contact Technical Support: (800) 260-1312.

YES

• Contact Technical Support: (800) 260-1312.

Install Slide-In-Module in PointSystem™Chassis

CAUTION: Any Slide-in-Module installation slot in which a Media Converter
Slide-in-Module is NOT installed MUST have a protective plate instead.
Failure to observe this caution will void Class A and/or Class B compliance.

NOTE: Install Media Converter Slide-in-Modules in any slot, in any order.

1. Carefully slide Media Converter Slide-in-Module into installation slot,
aligning Media Converter Slide-in-Module with installation guides.

NOTE: Ensure that Slide-in-Module is firmly seated against backplane.

2. Secure Slide-in-Module by securing panel fastener screw (attached to
Slide-in-Module) to chassis front.

3. Install protective plate at ANY Slide-in-Module installation slot in which
a Media Converter Slide-in-Module is not installed by securing attached
protective plate panel fastener screw to chassis front.

Install Cable

COPPER

NOTE: AutoCross™allows the use of either straight-through or crossover
configuration cables. (See page 7 for discussion of AutoCross

™

feature.

See page 11 for straight-through/crossover cable diagram.)

1. Locate or build 100BASE-TX-compliant cables with male RJ-45

connectors installed at both ends.

2. Connect RJ-45 connector at one end of cable to media converter

RJ-45 port connector.

3. Connect RJ-45 connector at other end of cable to 100BASE-TX-

compliant device RJ-45 port connector.

FIBER

1. Locate or build 100BASE-FX-compliant fiber cable with male two-

stranded TX to RX connectors installed at both ends.

2. Connect cable with connector installed at TX location on media

converter to RX location on attached device.

3. Connect cable with connector installed at RX location on media

converter to TX location on attached device..

Power the Slide-In-Module

NOTE: The Slide-In-Module is powered through the Conversion

Center

™

.

TX

RX

TX

RX

OPERATION

Using Status LEDs

Use the status LEDs to monitor media converter operation in the network.
P(o)W(e)R Steady LED indicates connection to

external AC power.

LKF (Fiber link) Steady LED indicates fiber

link connection.

Flashing LED indicates reception of Far

End Fault (FEF) on fiber link.

RXF (Fiber receive) Flashing LED indicates

reception of data on fiber link.

RXC (Copper receive) Flashing LED

indicates reception of data on copper
link.

LKC (Copper link) Steady LED indicates copper link connection.

Using SNMP*

Use SNMP at an attached terminal or at a remote location to:

• Monitor media converter by monitoring:

Media Converter Power
Copper Link Status
Fiber Link Status
Copper Receive Status
Fiber Receive Status
Hardware Switch settings
Fault Condition

• Enter network commands that:

Enable/disable Auto-negotiation
Enable/disable LPT
Enable/disable Pause
Enable/disable AutoCross

™

Power Down Media Converter.

*See the on-line documentation that comes with TRANSITION Networks

FocalPoint

™

software for applicable commands and usage.

Using AutoCross

™

**

The AutoCross™ feature allows either straight-through (MDI) or crossover
(MDI-X) copper cables to be used when connecting to 100BASE-TX devices,
such as hubs, transceivers, or network interface cards (NICs). AutoCross

™

determines the characteristics of the cable connection and automatically
configures the media converter to link up.

**Requires no operator intervention.

Using Auto-negotiation***

The CFETF10xx series media converter auto-negotiation feature allows the
media converter to bring up the copper link in the highest mode possible for
ALL the attached network devices.

***Requires no operator intervention.

Using Link Pass Through

When the Link Pass Through (LPT) function is active, a fault on one side of
the media coverter stops signal and data transmission on the other side.

NOTE: The network Far End Fault (FEF) function cannot be disabled.
However, if the LPT function is enabled, a far-end fault condition is obaerved
if EITHER the twisted-pair copper OR the fiber link is down. If the LPT
function is disabled, a far-end fault condition is obaerved ONLY if the fiber
link is down.

PWR

RXF

RXC

LKF

LKC

TX

1

0

100BASE-TX

Device

Media Converter

100BASE-FX

Device

Original Fault

2

100BASE-TX

Device

Media Converter

100BASE-FX

Device

Original Fault

2