User’s Guide
SBFTF10xx-10x
Stand Alone Media Converter
•
•
•
Copper to Fiber
10/100 Bridging (2-Port)
10/100Base-TX to 100Base-FX
The SBFTF10xx-10x 2-port Ethernet/fast Ethernet
bridging media converter connects 10Base-T
Ethernet or 100Base-TX fast Ethernet twisted-pair
copper network devices to network devices on a
100Base-FX fast Ethernet fiber network.
Part Number
Port One - Copper
10Base-T/100Base-TX 100Base-FX
Port Two - Duplex Fiber-Optic
SBFTF1011-100
SBFTF1013-100
SBFTF1014-100
RJ-45
100 m (328 ft)*
ST, 1300 nm multimode
2 km (1.2 miles)*
RJ-45
100 m (328 ft)*
RJ-45
100 m (328 ft)*
SC, 1300 nm multimode
2 km (1.2 miles)*
SC, 1310 nm single mode
20 km (12.4 miles)*
SBFTF1015-100
(long haul)
RJ-45
100 m (328 ft)*
SC, 1310 nm single mode
40 km (24.8 miles)*
SBFTF1016-100
(extra long haul)
RJ-45
100 m (328 ft)*
SC, 1310 nm single mode
60 km (37.2 miles)*
SBFTF1017-100
(long wave length) 100 m (328 ft)*
RJ-45
SC, 1550 nm single mode
80 km (49.7 miles)*
SBFTF1018-100
SBFTF1019-100
RJ-45
100 m (328 ft)*
MT-RJ, 1300 nm multimode
2 km (1.2 miles)*
RJ-45
100 m (328 ft)*
LC, 1310 nm single mode
20 km (12.4 miles*
*Typical maximum cable distance. Actual distance is dependent upon the
physical characteristics of the network installation.
The chassis version of the media converter
is CBFTF10xx-10x. For more information,
see the CBFTF10xx-10x user’s guide on-
Installation . . . . . . . . . . . . . . . . . .2
Operation . . . . . . . . . . . . . . . . . . .6
Half-Duplex Network . . . . . . . . . .9
Cable Specifications . . . . . . . . . .11
Technical Specifications . . . . . . .13
Troubleshooting . . . . . . . . . . . . .13
Compliance Information . . . . . . .15
Contact Us . . . . . . . . . . . . . . . . .16
SBFTF10xx-10x
Installation -- Continued
Installation -- Continued
Connect the Twisted-Pair Copper Cable
Connect the Fiber Cable
Ensure that the correct cable type is installed to support the highest speed and
mode of operation to be selected.
100Base-FX / fast Ethernet collision domain
•
•
If half-duplex mode is used, refer to the 512-Bit Rule (page 9) before
installing the 100Base-FX fiber cable.
Although Category 3 cable is adequate for the 10Base-T installation, Category 5
cable is strongly recommended, since Category 3 cable can not be used for
100Base-TX installation.
If full-duplex mode is used, the 512-Bit Rule does not apply. The cable
lengths are constrained by the cable requirements (see pages 1 and 2).
10Base-T / Ethernet collision domain
Install the Fiber Cable
•
If half-duplex cable is used, refer to the 5-Segment Rule (page 10) before
1. Locate or build IEEE 803.2™ compliant 100Base-FX fiber cable with
male, two-stranded TX to RX connectors installed at both ends.
installing the 10Base-T twisted-pair copper cable.
•
If full-duplex cable is used, the 5-Segment Rule does not apply. The cable
lengths are constrained by the cable requirements (see pages 1 and 2).
2. Connect the fiber cables to the SBFTF10xx-10x as described:
•
•
Connect the male TX cable connector to the female TX port.
Connect the male RX cable connector to the female RX port.
100Base-TX / fast Ethernet collision domain
3. Connect the fiber cables to the other device (another media converter,
hub, etc.) as described:
•
If half-duplex cable is used, refer to the 512-Bit Rule (page 10) before
installing the 100Base-TX twisted-pair copper cable.
•
•
Connect the male TX cable connector to the female RX port.
Connect the male RX cable connector to the female TX port.
•
If full-duplex cable is used, the 512-Bit Rule does not apply. The cable
lengths are constrained by the cable requirements (see pages 1 and 2).
Connect fiber cable
to media converter
as shown.
Connect fiber cable
to other device
(media converter,
hub, etc.) as shown
NOTE: A fast Ethernet collision domain can have one one class I repeater or
two class II repeaters.
RX
TX
RX
TX
Install the Twisted-Pair Copper Cable
NOTE: The AutoCross feature allows either MDI (straight-through) or MDI-X
(crossover) cable connections to be configured automatically, according to the
network conditions.
1. Locate or build IEEE 803.2™ compliant 10Base-T or 100Base-TX cables,
with RJ-45 connectors installed at both ends.
Power the Media Converter
NOTE: The external power supply provided with this product is UL listed by
the power supply’s manufacturer.
2. Connect the RJ-45 connector at one end of the cable to the RJ-45 port on
the SBFTF10xx-10x media converter.
AC
3. Connect the RJ-45 connector at the other end of the cable to the RJ-45
port on the other device (switch, workstation, etc.).
1. Connect the barrel connector on the power adapter to the media
converter’s power port (located on the back of the media converter).
2. Connect the power adapter plug to AC power.
3. Verify that the media converter is powered by observing the illuminated
LED power indicator light.
DC
Consult the user’s guide for the Transition Networks SPS1872-xx DC external
power supply for powering the media converter.
RJ-45 port
on the media
converter
RJ-45 port
on the other device
(switch, work station, etc.)
24-Hour Technical Support: 1-800-260-1312 -- International: 00-1-952-941-7600
5
4
SBFTF10xx-10x
Operation
Operation -- Continued
Using the Status LEDs
Product Features
Use the status LEDs to monitor the media converter and the network
connections.
Rate Conversion
The media converter allows connection of 10Mb/s terminal devices on a
10Base-T legacy Ethernet copper network to 100Mb/s terminal devices on a
100Base-TX fast Ethernet copper network and/or to 100Mb/s terminal devices
on a 100Base-FX fast Ethernet fiber network.
The “FD” and “LACT” LEDs refer to the fiber port.
F(ull) D(uplex)
On = Full-duplex fiber connection.
Off = Half-duplex fiber connection.
L(ink) ACT(ivity)
Auto-Negotiation
The Auto-Negotiation feature allows the SBFTF10xx-10x media converter to
automatically configure itself to achieve the best possible mode of operation
over a link. The media converter broadcasts its speed (10 Mb/s or 100 Mb/s)
and duplex capabilities (full or half) to the other devices and negotiates the
best mode of operation. Auto-Negotiation allows quick and easy installation
because the optimal link is established automatically.
On = Fiber link connection.
Flashing = Fiber network activity.
P(o)W(e)R
On = Connection to external AC or DC power.
A scenario where the media converter is linked to a non-negotiating device is
a case where the user may want to disable Auto-Negotiation. In this instance,
the mode of operation will drop to the least common denominator between
the two devices (e.g.: 10 Mb/s, half-duplex). Disabling this feature gives the
user the ability to force the connection to the desired speed and duplex mode
of operation.
Duplex/Link Speed
FD
LACT
PWR
100Base-FX
10/100TX
AutoCross™
When the AutoCross feature is activated, it allows either straight-through
(MDI) or crossover (MDI-X) copper cables to be used when connecting to
10Base-T or 100Base-TX devices. AutoCross determines the characteristics of
the connection and automatically configures the unit to link up, regardless if
the copper cable is MDI or MDI-X configuration. (Transition networks
recommends leaving the device in the default “enable” mode.)
The two-color LEDs refer to the twisted-pair copper port.
Duplex/Link LED
Amber = A link on the half-duplex twisted-pair copper link.
Flashing Amber = Activity on the half-duplex copper link.
Green = A link on the full-duplex twisted-pair copper link.
Flashing Green = Activity on the full-duplex copper link.
Speed LED
Link Pass-Through
The Link Pass-Through feature allows the media converter to monitor both the
fiber and copper RX (receive) ports for loss of signal. In the event of a loss of
an RX signal (1), the media converter will automatically disable the TX
(transmit) signal (2), thus, “passing through” the link loss (3). The far-end
device is automatically notified of the link loss (4), which prevents the loss of
valuable data unknowingly transmitted over an invalid link.
Amber = 10 Mb/s operation.
Green = 100 Mb/s operation.
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7
6
SBFTF10xx-10x
Operation -- Continued
Half-Duplex Network
Product Features -- Continued
512-Bit Rule - 100Base-TX or 100Base-FX
Use the 512-Bit Rule to calculate the 100Base-TX or 100Base-FX half-duplex
collision domain.
Distance Extension
The SBFTF10xx-10x media converter segments 10Base-T copper Ethernet
and/or 100Base-TX copper fast Ethernet and 100Base-FX fiber fast Ethernet
collision domains.
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.)
In a half-duplex Ethernet or fast Ethernet environment, the SBFTF10xx-10x
media converter extends network distances by segmenting collision domains
so that the 5-Segment Rule (see page 10) or the 512-Bit Rule (see pages 9 and
10) applies separately to each collision domain.
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.
In a full-duplex Ethernet or fast Ethernet environment, the SBFTF10xx-10x
media converter extends network distances to the physical cable limitations
imposed by the selected copper and fiber cables (see pages 1 and 2).
To calculate the round-trip delay for a collision domain:
1. Find the collision domain, i.e. the longest
Class I hub
140 BT
92 BT
50 BT
path between any two terminal devices
(e.g., terminal, switch, and/or router).
2. Calculate the round-trip delay in bit-
times for each length of cable.
4. Determine the bit-time values for each
device (see table to the right).
Class II hub
terminal/router
1 meter TP cable 1.11 BT
1 meter fiber cable 1 BT
Fast Ethernet switch 50 BT
Congestion Reduction
The SBFTF10xx-10x media converter does not forward collision signals or
error packets from one collision domain to another, improving baseline
network performance. In addition, the media converter filters packets
destined for local devices, also reducing network congestion.
SBFTF10xx-10x
50 BT
3. Add the bit-time values for each length of
cable and the bit-times for each device.
NOTE: The 512-Bit Rule applies separately to each collision domain.
Optional Accessories (sold separately)
Part Number Description
100Base-TX Twisted-Pair Example
In the example below, the SBFTF10xx-10x 2-Port bridging media converter
acts as a switch. In this case, the collision domain bound by the media
converter on one end and a terminal on the other.
SPS-1872-SA Optional External Power Supply; 18-72VDC Stand-Alone
Output: 12.6VDC, 1.0 A
SPS-1872-PS Optional External Power Supply; 18-72VDC Piggy-back;
Output: 12.6VDC, 1.0 A
12-Slot Media Converter Rack (includes universal internal power
supply) 17 x 15 x 5 in. (432 x 381 x 127 mm)
100 meters TP
cross-over
= 111BT
10 meters TP
cross over
= 11.1BT
10 meters TP
straight-through
= 11.1BT
E-MCR-04
WMBL
Optional Wall Mount Brackets; Length: 4.7in. (119mm)
Optional Vertical Mount Bracket; Length: 5.0 in. (127 mm)
Optional DIN Rail Mount Bracket; Length: 5.0 in. (127 mm)
Optional DIN Rail Mount Bracket (flat); Length: 3.3in. (84 mm)
WMBV
WMBD
WMBD-F
class II hub
= 92BT
class II hub
= 92BT
terminal
= 50 BT
media converter
= 50BT
Since the total of the bit-times in this example is less than 512 (see chart
below), the path is good.
Sum of the bit-times for the example collision domain:
Media converter
100 m TP cable
Two Class II hubs (2 x 92)
=
50.0 BT
(100m x 1.11 BT/m)
= 111.0 BT
= 184.0 BT
Two 10 m TP cables (2 x 10m x 1.11 BT/m)
Terminal
=
=
22.2 BT
50.0 BT
Total
= 417.2 BT
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9
8
SBFTF10xx-10x
Half-Duplex Network -- Continued
Cable Specifications
The physical characteristics must meet or exceed IEEE 802.3™ specifications.
100Base-TX Fiber Example
The drawing to the right
Fiber Cable
400 meters fiber cable = 400BT
illustrates a collision domain
where two media converters
are connected via fiber cable.
Bit Error Rate:
<10-9
9 µm
single mode fiber (recommended):
Multimode fiber (recommended):
Multimode fiber (optional):
62.5/125 µm
100/140, 85/140, 50/125 µm
Since the total of the bit-times
in this example is less than
512 (50BT + 400BT + 50BT = media converter
500BT) the path is good.
SBFTF1011-100
SBFTF1013-100
Fiber Optic Transmitter Power:
Fiber Optic Receiver Sensitivity:
Link Budget:
1300 nm multimode
1300 nm multimode
min: -19.0 dBm
min: -30.0 dBm
11.0 dB
media converter
= 50BT
= 50BT
max: -14.0 dBm
max: -14.0 dBm
SBFTF1014-100
1310 nm single mode
5-Segment Rule - 10Base-T
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
min: -15.0 dBm
min: -31.0 dBm
16.0 dB
max: -8.0 dBm
max: -8.0 dBm
Use the 5-Segment Rule to calculate the 10Base-T half-duplex collision
domain.
The 5-Segment rule states that a transmission path of a collision domain can
consist of no more than 5 segments. A “collision domain” and a “segment”
are defined as follows:
SBFTF1015-100 (long haul)
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
1310 nm single mode
min: -8.0 dBm
min: -34.0 dBm
26.0 dB
max: -2.0 dBm
max: -7.0 dBm
A collision domain is the longest path in a 10Base-T network between any
two terminal devices, e.g. a terminal, switch, or router. The SBFTF10xx-10x
media converter is also a terminal device.
SBFTF1016-100 (extra long haul)
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
1310 nm single mode
min: -5.0 dBm
min: -34.0 dBm
29.0 dB
max: 0.0 dBm
max: -7.0 dBm
A segment is a cable connection
media converter
between any two network interfaces
within a collision domain.
SBFTF1017-100 (long wave length)
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
1550 nm single mode
min: -5.0 dBm
min: -34.0 dBm
29.0 dB
max: 0.0 dBm
max: -7.0 dBm
1
100 meters TP
cross-over
10Base-T Twisted-Pair Example
SBFTF1018-100
1300 nm multimode
min: -19.0 dBm
min: -33.5 dBm
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
max: -14.0 dBm
max: -14.0 dBm
The example to the right illustrates
applying the 5-Segment Rule. The cable
between each network device (media
converter, Hub, or Terminal) is
numbered as a “segment”.
hub
100 meters TP
straight-through
SBFTF1019-100
1310 nm single mode
2
2
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
min: -15.2 dBm
min: -32.5 dBm
17.3 dB
max: -8.0 dBm
max: -3.0 dBm
100 meters TP
cross-over
Note that the longest transmission path
(from the media converter at the top to
the terminal at the bottom) is 5 segments.
Therefore, the network in this example
complies with the 5-Segment Rule.
hub
100 meters TP
straight-through
3
3
100 meters TP
cross-over
hub
100 meters TP
NOTE: The 5-Segment Rule must be
applied separately to each 10Base-T
collision domain.
straight-through
4
4
100 meters TP
cross-over
hub
100 meters TP
straight-through
5
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11
10
SBFTF10xx-10x
Cable Specifications -- Continued
Technical Specifications
For use with Transition Networks Model SBFTF10xx-10x or equivalent.
Standards
IEEE 802.3™
SBFTF1029-100
SBFTF1029-101
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
1310 nm (TX) / 1550 nm (RX) simplex
1550 nm (TX) / 1310 nm (RX) simplex
Data Rate
10 Mb/s, 100 Mb/s
min: -13.0 dBm
min: -32.0 dBm
19.0 dB
max: -6.0 dBm
max: -3.0 dBm
Dimensions
Weight
3.25" x 1.0" x 4.7" (83 x 25 x 119 mm)
10 oz. (283 g) (approximate)
4.95 watts
SBFTF1029-102
SBFTF1029-103
Fiber-optic Transmitter Power:
Fiber-optic Receiver Sensitivity:
Link Budget:
1310 nm (TX) / 1550 nm (RX) simplex
1550 nm (TX) / 1310 nm (RX) simplex
Power Consumption
Power Supply
12 VDC, 0.8 Amp (N. America, Europe, Japan, UK)
12 VDC, 1.25 Amp (Latin Am., Australia, N.Z., S. Africa)
(The external power supply provided with this product is
UL listed by the power supply’s manufacturer.)
min: -8.0 dBm
min: -33.0 dBm
25.0 dB
max: -3.0 dBm
max: -3.0 dBm
SBFTF1035-100 (long wave)
Fiber Optic Transmitter Power:
Fiber Optic Receiver Sensitivity:
Link Budget:
1550 nm multimode
min: 0.0 dBm
min: -36.0 dBm
36 dB
max: +5.0 dBm
max: -3.0 dBm
MTBF
426,000 hours (MIL217F2 V5.0) (MIL-HDBD-217F)
1,326,000 hours (Bellcore7 V5.0)
Packet Size:
Memory: 256K bytes (2 Mbit)
Unicast MAC addresses: 4K
Maximum packet size: 1536 bytes
SBFTF1039-100
1300 nm multimode
min: -19.0 dBm
min: -30.0 dBm
11dB
Fiber Optic Transmitter Power:
Fiber Optic Receiver Sensitivity:
Link Budget:
max: -14.0 dBm
max: -14.0 dBm
Environment
Tmra*:
0 to 50°C (32 to 122°F )
-20 to 85°C (-4 to 185°F)
5 to 95%, non condensing
0 to 10,000 feet
The fiber optic transmitters on this device meet Class I Laser safety requirements
per IEC-825/CDRH standards and comply with 21 CFR1040.10 and
Storage Temp:
Humidity:
Altitude:
21CFR1040.11.
Warranty
Lifetime
Copper Cable
*Manufacturer’s rated ambient temperature.
Category 3: (Minimum requirement for 10 Mb/s operation)
The information in this user’s guide is subject to change. For the most up-to-date
Gauge
Attenuation
Maximum Cable Distance
24 to 22 AWG
11.5 dB/100m @ 5-10 MHz
100 meters
Product is certified by the manufacturer to comply with DHHS Rule 21/CFR,
Subchapter J applicable at the date of manufacture.
Category 5: (Minimum requirement for 100 Mb/s operation)
CAUTION: Visible and invisible laser radiation when open. Do not stare into the
beam or view directly with optical instruments.
Gauge
Attenuation
Maximum Cable Distance
24 to 22 AWG
22.0 dB /100m @ 100 MHz
100 meters
CAUTION: Use of controls, adjustments or the performance of procedures other
than those specified herein may result in hazardous radiation exposure.
• Straight-through or crossover twisted-pair cable may be used.
• Shielded (STP) or unshielded (UTP) twisted-pair cable may be used.
• Pins 1&2 and 3&6 are the two active pairs in an Ethernet network .
• Use only dedicated wire pairs for the active pins:
Troubleshooting
(e.g., blue/white & white/blue, orange/white & white/orange, etc.)
• Do not use flat or silver satin wire.
1.
Is the power LED illuminated?
NO
•
Is the power cord properly installed in the media converter and at the
external power source?
Straight-Through Cable
Crossover Cable
1
2
1
2
1
2
1
2
Twisted Pair #1
Twisted Pair #2
Twisted Pair #1
Twisted Pair #2
•
•
Does the external power source provide power?
Contact Technical Support: US/Canada: 1-800-260-1312,
International: 00-1-952-941-7600.
3
6
3
6
3
6
3
6
YES
•
Proceed to step 2.
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13
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SBFTF10xx-10x
Troubleshooting -- Continued
Compliance Information
CISPR22/EN55022 Class A + EN55024
CE Mark
2.
Is the “Duplex/Link” LED illuminated on the twisted-pair copper
port?
NO
FCC Regulations
This equipment has been tested and found to comply with the limits for a Class A 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.
•
Check the copper cables for proper connection.
•
Contact Tech Support: 1-800-260-1312, Int’l: 00-1-952-941-7600.
YES
•
Amber = The media converter has selected half-duplex mode.
Green = The media converter has selected full-duplex mode.
If the mode is not correct, disconnect and reconnect the twisted pair
cable to restart the initialization process.
•
•
Canadian Regulations
•
Proceed to step 3.
This digital apparatus does not exceed the Class A 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 prescrites dans le Règlement sur le
brouillage radioélectrique édicté par le ministère des Communications du Canada.
3.
4.
Is the “LACT” LED illuminated on the fiber port?
NO
•
•
Check the fiber cables for proper connection.
Verify that the TX and RX cables are connected to the RX and TX
ports, respectively, on the 100Base-FX device.
European Regulations
Warning This is a Class A 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. In Wohnbereichen können
bei Betrieb dieses Gerätes Rundfunkstörungen auftreten, in diesem Fäll ist der Benutzer für
Gegenmaßnahmen verantwortlich.
•
Contact Tech Support: 1-800-260-1312, Int’l: 00-1-952-941-7600.
YES
•
Proceed to step 4.
Attention! Ceci est un produit de Classe A. Dans un environment domestique, ce produit
risque de créer des interférences radioélectriques, il appartiendra alors à l'utilsateur de
prende les measures spécifiques appropriées.
Is the “Speed” LED illuminated on the twisted-pair cable port?
NO
•
Check the copper cables for proper connection.
•
YES
•
•
•
Contact Tech Support: 1-800-260-1312, Int’l: 00-1-952-941-7600.
VCCI Class 1 Compliance
This equipment is in the 1st Class category (information equipment to be used in commercial
and/or industrial areas) and conforms to the standards set by the Voluntary Control Council
For Interference by Data Processing
Amber = The media converter has selected 10Mb/s operation.
Green = The media converter has selected 100Mb/s operation.
If the speed is not correct, disconnect and reconnect the twisted pair
cable to restart the initialization process.
Equipment and Electronic Office
Machines aimed at preventing radio
interference in commercial and/or
industrial areas. When used in a
•
Proceed to step 5.
residential area or in an adjacent area
thereto, interference may be caused to
radio and TV receivers, etc. Read the
instructions for correct handling.
5.
Is the Link in the proper position?
NO
•
The link may “flap” (go from “link up” to “link down”) when the link
is lost (if the media converter has the Link Pass-Through function
enabled and is in forced 10/100 Mb mode).
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.
•
Contact Tech Support: 1-800-260-1312, Int’l: 00-1-952-941-7600.
YES
•
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.
Contact Tech Support: 1-800-260-1312, Int’l: 00-1-952-941-7600.
24-Hour Technical Support: 1-800-260-1312 -- International: 00-1-952-941-7600
15
14
Contact Us
Technical Support
Technical support is available 24 hours a day.
US and Canada:
International:
1-800-260-1312
00-1-952-941-7600
Transition Now
Chat live via the Web with Transition Networks Technical Support.
Web-Based Seminars
Transition Networks provides seminars via live web-based training.
E-Mail
Ask a question anytime by sending an e-mail to our technical support staff.
Address
Transition Networks
10900 Red Circle Drive, Minnetonka, MN 55343, U.S.A.
telephone: 952-941-7600, toll free: 800-526-9267, fax: 952-941-2322
Declaration of Conformity
Name of Mfg:
Transition Networks
10900 Red Circle Dirve, Minnetonka, MN 55343 U.S.A.
Model:
SBFTF10xx-10x Series Media Converters
Part Number(s):
SBFTF1011-100, SBFTF1013-100, SBFTF1014-100, SBFTF1015-100,
SBFTF1016-100, SBFTF1017-100, SBFTF1018-100, SBFTF1019-100,
SBFTF1029-100, SBFTF1029-101, SBFTF1029-102, SBFTF1029-103 ,
SBFTF1035-100,SBFTF1039-100
Regulation:
EMC Directive 89/336/EEC
Purpose: To declare that the SBFTF10xx-10x to which this declaration refers is
in conformity with the following standards.
CISPR 22:1993; EN 55022:1998 Class A; EN 55024:1998; FCC Part 15 Subpart B;
CFR 21 subpart J; EN 61000-3-2:1995 + A14:2000; EN61000-3-3:1995
I, the undersigned, hereby declare that the equipment specified above conforms to the above
Directive(s) and Standard(s).
January, 2008_____
Stephen Anderson, Vice-President of Engineering
Date
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