Transition Networks C4TEF1014-110, C4TEF1016-110, C4TEF1013-110, C4TEF1015-110, C4TEF1017-110 User Manual

*Typical maximum cable distance.
Actual distance is dependent upon the
physical characteristics of the network.

Installation . . . . . . . . . . . . . . . . . .2

Operation . . . . . . . . . . . . . . . . . .10

Cable Specifications . . . . . . . . . .13

Technical Specifications . . . . . . .15

Troubleshooting . . . . . . . . . . . . .16

Compliance Information . . . . . . .20

User’s Guide

C4TEF10xx-11x

Slide-in-Module Device

• Twisted-Pair Copper to Fiber

• 10/100Base-TX to 100Base-FX

• RS-232 to Fiber

• (4) T1/E1 to Fiber

The C4TEF10xx-11x Device is designed
to install into a Transition Networks
PointSystem™ chassis and can extend
signals from a 10Base-T
Ethernet/100Base-TX Fast Ethernet port,

an RS-232 data port, and up to four (4)
T1/E1 network ports over fiber. The Ethernet, RS-232, and T1/E1 interfaces are
independent of each other and the signals from these ports can be sent over the
fiber interface simultaneously.

The C4TEF10xx-11x is designed to be installed in pairs. For example, install one
C4TEF1011-110 as the local Device and another C4TEF1011-110 as the remote
Device.

All C4TEF10xx-11x models have the following copper connectors:

The various fiber connectors are available on separate models. Both duplex and
single mode fiber opticDevices are available:

Part Number Duplex Fiber-Optic - 100Base-FX
C4TEF1011-110 ST, 1300 nm multimode, 2 km (1.2 miles)*
C4TEF1013-110 SC, 1300 nm multimode, 2 km (1.2 miles)*
C4TEF1014-110 SC, 1310 nm single mode, 20 km (12.4 miles)*
C4TEF1015-110 SC, 1310 nm single mode, 40 km (24.8 miles)*
C4TEF1016-110 SC, 1310 nm single mode, 60 km (37.2 miles)*
C4TEF1017-110 SC, 1550 nm single mode, 80 km (49.7 miles)*
C4TEF1018-110 MT-RJ, 1300 nm multimode, 2 km (1.2 miles)*

Connector Type Number Description
Ethernet one (1) RJ-45, 100 Mb/s, 100 m (328 ft.)*
RS-232 one (1) 6-pin, DIN serial, 3.2 m (10 ft.)*
T1/E1 four (4) RJ-48

C4TEF1029-11x (Single mode, single fiber models are listed on page 2.)

2

C4TEF10xx-11x

24-hour Technical Support: 1-800-260-1312 -- International: 00-1-952-941-7600

10/100Base-TX

LKF PWR

RS-232

100Base-FX

C4TEF

TX

RX

LNK

AIS

1

LNK

AIS

2

LNK

AIS

3

LNK

AIS

4

fiber port

Ethernet port

RS-232 port

T1/E1 port

s

Part Number Fiber-Optic - Single Fiber, Single Mode, 100Base-FX

C4TEF1029-110 SC, 1310 mn (TX)/1550 nm (RX), 20 km (12.4 miles)*

C4TEF1029-111 SC, 1550 mn (TX)/1310 nm (RX), 20 km (12.4 miles)*

Note: C4TEF1029-110 and C4TEF1029-111 are intended to be installed in the

same link where one is the localDevice and the other is the remoteDevice.

C4TEF1029-112 SC, 1310 mn (TX)/1550 nm (RX), 40 km (24.8 miles)*

C4TEF1029-113 SC, 1550 mn (TX)/1310 nm (RX), 40 km (24.8 miles)*

Note: C4TEF1029-112 and C4TEF1029-113 are intended to be installed in the

same link where one is the localDevice and the other is the remoteDevice.

Installation

NOTE: Due to proprietary communication over fiber, the C4TEF10xx-11x is

required to be installed in pairs, where one is the localDevice and the other is
the remoteDevice.

Copper and Fiber Ports

The figure below illustrates the locations of the fiber port, the Ethernet port, the
RS-232 port, and the four (4) T1/E1 ports.

* Typical maximum cable distance. Actual distance is dependent upon the

physical characteristics of the network. (TX) = transmit, (RX) = receive

The stand-alone version of the Device is S4TEF10xx-11x. For more information,
see the user’s guide on-line at: www.transition.com.

The information in this user’s guide is subject to change. For the most up-to-date
information on the C4TEF10xx-11x Device, see the user’s guide on-line at:
www.transition.com.

Note: An RS-232 cable with a 6-pin DIN connector and a DB-9 connector is
included with the C4TEF10xx-11x Device.

C4TEF1035-110 SC, 1550 nm single mode, 120 km (74.6 miles)*

3

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Installation -- Continued

Configuration Switches

The C4TEF10xx-11x Device has two (2) sets of configuration switches.

• Set #1 is on the upper circuit board and sets the T1/E1 options.

• Set #2 is on the lower circuit board and sets the serial/Ethernet options.

Use a flat blade screwdriver to set the switches as shown:

Switch Set #1 - T1/E1 Options

1, 2, 3, 4 - Line Settings

Switches 1, 2, 3, and 4 are used to setup the line settings for the T1/E1 ports. The
selected setting applies to all four (4) T1/E1 channels.

Switch Set #1: T1/E1 Options

Switch Set #2: Serial / Ethernet O

p

tions

Key

up down

DSX-1, 100 ohm, 266-399 ft. (81-122 m)

DSX-1, 100 ohm, 399-533 ft. (122-162 m)

DSX-1, 100 ohm, 0-133 ft. (0-40.5 m)

DSX-1, 100 ohm, 133-266 ft. (40.5-81 m)

1 2

DS1, 100 ohm, 0 dB LBO

DS1, 100 ohm, -7.5 dB LBO

DSX-1, 100 ohm, 533-655 ft. (162-200 m)

J1, 110 ohm, 0-655 ft. (0-200 m)

3

E1, 120 ohm

DS1, 100 ohm, -15 dB LBO

DS1, 100 ohm, -22.5 dB LBO

41234

4

C4TEF10xx-11x

24-hour Technical Support: 1-800-260-1312 -- International: 00-1-952-941-7600

Installation -- Continued

Switch set #1 - T1/E1 options

5, 6, 7, 8 - Loop-Back settings

The loop-back setting is used for installation and network debugging procedures.
Each of the T1/E1 ports can be individually set for loop-back mode:

• Switch 5 controls T1/E1 port 1

• Switch 6 controls T1/E1 port 2

• Switch 7 controls T1/E1 port 3

• Switch 8 controls T1/E1 port 4

When the loop-back switch for a particular T1/E1 port is enabled, the port loops
the signal from the receive port back to the transmit port. The T1/E1 loop-back
test scenarios are described in detail in under Troubleshooting.

Disable Loop-Back on T1/E1 port 1

Enable Loop-Back on T1/E1 port 1

up

5

down

Disable Loop-Back on T1/E1 port 2

Enable Loop Back on T1/E1 port 2

6

up

down

up

down

Disable Loop-Back on T1/E1 port 3

Enable Loop-Back on T1/E1 port 3

7

up

down

Disable Loop-Back on T1/E1 port 4

Enable Loop-Back on T1/E1 port 4

8

9 - Transmit AIS

up - Enable the transmit AIS (Alarm Indication
Signal) on loss of the carrier signal. This function is
un-framed and applies to ALL channels, both
copper and fiber.

down - Disable the transmit AIS function.

10 - RS-232 Port Mode

up - Data port mode (normal operation). Transmits
data to a desk top computer or other data
collection device

down - Local (auxiliary) management mode. See
the SNMP section for the commands that are
supported via the RS-232 connector.

Enable

Disable

9

up

down

Data Mode

Local Management Mode

10

down

up

5

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Installation -- Continued

Switch Set #2 - Serial and Ethernet Options

1, 2, 3 - Serial Connection Speed Line Settings

Switches 1, 2, and 3 on switch set #2 are used to set the serial connection speed.

4800 baud

9600 baud

1200 baud

2400 baud

1 2 3

57600 baud

115200 baud

19200 baud

38400 baud

1 2 3

4. Enable/Disable Parity

When parity is enabled, an additional bit is
added to the 8-bit signal to identify whether the
signal is sent successfully. Use switch 5 to send
odd or even signal parity.

up - Disable parity.

down - Enable parity.

5. Parity Select

up - Select odd serial parity.

down - Select even serial parity.

This switch is inactive if switch 4 (UP).

Enable Parity

Disable Parity

down

up

4

Odd Serial Parity

Even Serial Parity

up

5

down

6

C4TEF10xx-11x

24-hour Technical Support: 1-800-260-1312 -- International: 00-1-952-941-7600

Installation -- Continued

Switch Set #2 - Serial and Ethernet Options

6 - Twisted-Pair Auto-Negotiation

up (Enabled) - The Device “advertises” ALL rate
and mode capabilities to the network:

• 100 Mb/s full- or half-duplex

• 10 Mb/s full- or half-duplex
The Device brings up the Ethernet link to the
highest speed and mode possible for all the
attached network devices.

When selected, Auto-Negotiation allows a twisted-pair link to become
operational only after the Auto-Negotiation function matches network speed
capabilities at both ends of the twisted-pair copper segment.

down (Disabled) - The bridging Device does not “advertise” the rate and mode
capabilities to the network. Switch 7 and switch 8 are then used to set the speed
and mode for the Ethernet link.

NOTE: Switch 7 and 8 are inactive if switch 6 is enabled (UP).

7 - Ethernet Speed

up (100Base-TX) - Sets the Ethernet port to
100Base-TX (100 Mb/s).

down (10Base-T) - Sets the Ethernet port to
10Base-T (10 Mb/s).

8 - Ethernet Mode

up (Full-Duplex) - Sets the Ethernet port to full-
duplex mode. The twisted-pair cable distances
are constrained by the cable requirements (see

Cable Specifications for the various C4TEF10xx­11x models).

down (Half-Duplex) - Sets the Ethernet port to
half-duplex mode. The twisted-pair cable
distances are constrained by the 512-bit rule:

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

domain is the longest path between any two terminal devices, e.g. a terminal,
switch, or router.)

The 512-bit rule determines the maximum length of cable permitted by
calculating the round-trip delay in bit-times (BT) of a particular collision domain.
If the result is less than or equal to 512 BT, the path is good.

For more information on the 512-bit rule, see the white paper titled “Collision
Domains” on the Transition Networks website at: www.transition.com.

Enable Auto-Negotiation

Disable Auto-Negotiation

6

up

down

up

down

Ethernet Speed = 100 Mb/s

Ethernet Speed = 10 Mb/s

7

up

down

Full-Duplex

Half-Du

p

lex

8

7

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10 - Fiber Loop-Back

up - Disable fiber loop-back.

down - Enable fiber loop-back.

The loop-back setting is used for installation
and network debugging procedures. When
the fiber loop-back function is enabled, the
fiber port loops all T1/E1 and Ethernet signals
from the receive ports back to the transmit
ports. The fiber loop-back test scenarios are
described in detail Troubleshooting section.

Enables Loop-Back

Disables Loop-Back

10

up

down

Installation -- Continued

Switch Set #2 - Serial and Ethernet Options

9 - Transparent Link Pass-Through

up - Enable Link Pass-Through

down - Disable Link Pass-Through

The Transparent Link Pass-Through feature allows the Device to monitor the
Ethernet copper RX (receive) ports for loss of signal. For example, when the
Ethernet copper link on the near end device is lost (1), the local Device transmits
a signal to the remote Device (2), thus, “passing through” the link loss. The
remote Device disables the Ethernet copper link to the far-end device (3), which
prevents the loss of valuable data unknowingly transmitted over an invalid link.

It is important to remember that, although the Ethernet copper link has been

disabled, the fiber link is still valid (4). Thus, there is no disruption to the transfer
of T1/E1 or RS-232 data signals over the fiber link.

3

1

Local

Media

Converter

Remote

Media

Converter

Near-End

Device

Far-End
Device

original fault on the

Ethernet copper link

remote converter disables

the Ethernet copper link

local converter sends a

loss signal over the fiber link

2

fiber link is still valid

4

up

down

Enables Link Pass Through

Disables Link Pass Through

9