PHOENIX OPTIX
PASSIVE
OPTICAL LAN
CABLING SYSTEM
Connectivity Solutions to Create Highly Reliable,
Cost-Saving Point-to-Multipoint POLs
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
PASSIVE OPTICAL LANS
End-to-End Connectivity Solutions
END-TO-END CONNECTIVITY
FROM ONE SOURCE
• Cassette-based splitters
Simplified Architecture for Increased Reliability
and Lower Power
Passive optical local area networks (POLs) can simplify your LAN. By
leveraging the low losses and high bandwidth of single-mode fibers, POLs
• Cable assemblies
significantly reduce the cabling infrastructure and reduce the number of
• Distribution hardware
active devices in the network. Based on single-mode fibers and passive
EASY TO INSTALL
splitters, a POL can serve up to 7000 users over a 20 km radius with a
• Seamless integration of splitters into
your network environment
The POL’s point-to-multipoint architecture can reduce the electronics
•P
re-terminated cables for fast
plug-and-play simplicity—and no
onsite terminations
single LAN aggregation switch.
required in the LAN, leading to significant savings in power, cooling, and
space requirements.
Passive optical splitters enable a single optical fiber to serve multiple
FLEXIBLE
users. Intermediate wiring closets and workgroup switches can be
• Longer transmission distances
eliminated. Passive fiber distribution hubs replace active workgroup
•B
end-insensitive single-mode fiber
for easier routing and installation
switches. A single fiber can deliver signals to a local user area, where a
•S
upport for MTP®, LC, and
SC interfaces
This can reduce the number of cables by a factor of 32:1.
RELIABLE
Save Money, Space, and Power
• Helps eliminate need for
intermediate wiring closets and
associated LAN electronics
passive fiber splitter divides the signal for delivery to individual users.
POLs can offer savings up to 50% in capital expenses and 75% in
operating expenses over a traditional LAN. Because POLs simplify the
network infrastructure, they can save you money in several ways:
• Reduced electronics. Active network electronics are only required at
each end, in the optical line terminal (OLT) and the optical network
terminal (ONT). Everything in between is based on passive distribution
hubs and splitters. Without the need for intermediate switches, wiring
closets can either be eliminated or significantly reduced in size.
EVERYTHING YOU NEED TO DEPLOY END-TO-END SOLUTIONS
Splitters
Enclosures and Splice Trays
Zone Boxes
Faceplates
Adapters
Cassettes
Backbone and Patch Cable Assemblies
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
• Lower power consumption. The reduction in electronics translates
into lower power use.
• Simplified cabling infrastructure. A single fiber can support up to
32 users after the splitter. Not only does this significantly reduce the
number of cables that need to be run, the bend-insensitive single-mode
fibers are small and easily routed.
• Easier management. Passive optical LANs are easier to manage.
The simplified architecture means moves, adds, and changes are easier
to accomplish.
Triple Play of Fiber to the Desk
A single fiber can deliver voice, video, and data to the user. The ONT
performs the opto-electronic conversion and demultiplexes the voice,
video, and data signals for connection to the appropriate user device.
There is no need for separate voice, video, and data cables before
reaching the desktop. The POL can handle both digital and RF video,
so that separate coaxial cables are not needed.
BUILDING 1
BUILDING 2
Reliability for Today . . .
A POL is based on carrier-class PON
technology with years of time-tested
reliability. A fiber-based POL can give five9s reliability—equivalent to 5 minutes of
unscheduled downtime a year. Because the
system between ONT and OLT is built with
reliable passive optical components, there
are fewer points of failure.
. . . Capacity for Future Networks
While copper-based cabling systems have
a useful lifetime of 10 to 15 years, a Phoenix
Optix POL system has the bandwidth today
to accommodate LAN upgrades well beyond
the expected useful life of copper cable.
While typical POLs today operate at 2.5
Gb/s downstream and 1.5 Gb/s upstream,
the single-mode fibers have the capacity to
handle much higher data rates. When you
need higher speeds, changes are required
only at each end—without changing
the cabling system. And since there are
no workgroup switches, no changes are
needed in intermediate electronics.
TE Components . . . TE Technology . . . TE Know-how . . .
AMP | Agastat | CII | Hartman | Kilovac | Microdot | Nanonics | Raychem | Rochester | DEUTSCH
L.L. Rowe | Phoenix Optix | SEACON
Get your product to market faster with a smarter, better solution.
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
TYPICAL PASSIVE OPTICAL LANS INFRASTRUCTURE
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
SPLITTER CASSETTES
Part Number Configurator
Typical Configuration
C – 1 32 SASA
1 x 32 Splitter
Cassette
Input Fibers
1, 2
Output Fibers
4, 8, 16,32
Input Connector
Types
LA: LC/APC
SA: SC/APC
Output Connector
Type
LA: LC/APC
SA: SC/APC
LC: LC
SC: SC
SC/APC Connectors, with 1.5 m Leads
(C-132SASA)
Input Fibers
1
2
Output Fibers
Insertion Loss, Max
4
7.4
8
10.7
16
13.7
32
16.9
4
7.8
8
11.4
16
14.9
32
18.0
Return Loss, Min.
55
Tested by Phoenix Optix @ 1310 nm • Test Methods: IL per TIA/EIA-455-171 Method B •
RL per TIA/EIA-455-107 Method 1
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
CASSETTES
Part Number Configurator
C – OS2 – MM – 12 – SAD -1
Typical Configurations
24-Fiber Cassette
12-Fiber Cassette
Quad LC/APC Receptacles
(C-OS2-MM-24-LAQ-1)
Duplex SC/APC Receptacles
(C-OS2-MM-12-SAD-1)
Cassette
Fiber Type
Single Mode
Input
MM: MTP® Receptacle
Fiber Count
12, 24 (LC Only)
Receptacle Type
SAD: Duplex SC/APC
LAD: Duplex LC/APC
LAQ: Quad LC/APC
SCD: Duplex SC
LCD: Duplex LC
LCQ: Quad LC
Connector
Finish
SMF UPC
SMF APC
Insertion Loss, Max
Return Loss, Min.
MTP
LC/SC
MTP
.60 dB
.25 dB
60 dB
LC/SC
57 dB
65 dB
Tested by Phoenix Optix @ 1310 nm • Test Methods: IL per TIA/EIA-455-171 Method B •
RL per TIA/EIA-455-107 Method 1
ADAPTER PANELS
Part Number Configurator
AP – 24 – LC – D – GR - P
Typical Configurations
24-Fiber Adapters
12-Fiber Adapters
Quad LC Receptacles
(AP-24-LC-Q-BL-P)
Duplex LC Receptacles
(AP-12-LC-D-BL-P)
Duplex LC Receptacles
(AP-24-LC-D-BL-P)
Duplex SC Receptacles
(AP-12-SC-D-GR-P)
Adapter
Panel
Fiber Count
12, 24
Connector Type
LC: LC
SC: SC
Receptacle Type
D: Duplex
Q: Quad
Color
BL: Blue
GR: Green
Sleeve
P: Phosphor Bronze
Z: Zirconia
Duplex LC-APC Receptacles
(AP-24-LC-D-GR-P)
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
ENCLOSURES: ZONE BOXES
Zone Box, Unloaded
Zone Box, Loaded
Floor or Wall Mountable
Capacity 12 Cassettes or Adapters
9.0” x 20.75” x 20.75” (H x D x W)
Part No. 916ZONE-1
Kit typical for 96 users:
One 12-Fiber SC/APC Cassette (C-OS2-MM-12-SAD-1)
Three 1 x 32 Splitter Cassettes (C-132SASA)
Eight 12-Fiber SC Duplex Adapter Panels (AP-12-SC-D-GR-P)
Part No. 916ZONE-1-SA
Ceiling Mount Kit Available
Part No. 916ZONE-CEILING
Includes four mounting bars and
twelve screws
ENCLOSURES: RACK MOUNT
1U Enclosure
2U Enclosure
4U Enclosure
Capacity: 3 Cassettes or Adapters
Fits 19” or 23” rack
1.75” x 12.70” x 19.00” (HxDxW)
Part No. RM-1300P/S
Capacity: 6 Cassettes or Adapters
Fits 19” or 23” rack
3.50” x 12.70” x 19.00” (HxDxW)
Part No. RM-2300P/S
Capacity: 12 Cassettes or Adapters
Fits 19” or 23” rack
7.00” x 12.70” x 19.00” (HxDxW)
Part No. RM-4300P/S
1U Shelf
Splice Tray
Capacity: 12 splices
Part No. 70001
Capacity: 3 Cassettes or Adapters
Fits 19” rack
1.63” x 8.00” x 19.00” (HxDxW)
Part No. 80048-C
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
BACKBONE CABLING
MTP® Multifiber Cables
Part Number Configurator
48 – MM - LC– 8 – T – A – S2 – 24 – P – 120 – A
Fiber Count
12, 24, 48, 72, 96, 144
Overall Length
Specify Length in Feet
Connector Type, End A
MF: MTP Female
MM: MTP Male
Pulling Eye
P: Pulling Eye
N: None
D: Dual Pulling Eye
Connector Type, End B
MF: MTP Female
MM: MTP Male
LC: LC
SC: SC
LA: LC/APC
SA: SC/APC
Breakout
24: Standard
Furcation
S2: 2-mm Simplex
S3: 3-mm Simplex
Armored
Cable Type
R: Ribbon Plenum
P: 3-mm Indoor Plenum
T: 2-mm Indoor Plenum
V: Indoor/Outdoor
Loose-Tube Plenum
Fiber Type
Bend-Insensitive
Single Mode
Connector
Finish
SMF UPC
SMF APC
Insertion Loss, Max
Return Loss, Min.
MTP
LC/SC
MTP
.60 dB
.25 dB
60 dB
LC/SC
57 dB
65 dB
Tested by Phoenix Optix @ 1310 nm • Test Methods: IL per TIA/EIA-455-171 Method B •
RL per TIA/EIA-455-107 Method 1
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
JUMPERS
Part Number Configurator
S - L C - L C - 8 - 2 - Z - 100
Type
Jumper
Overall Length
Specify Length in Feet
Connector, End A
LC: LC
SC: SC
LA: LC/APC
SA: SC/APC
Jacket Options
R: Riser
P: Plenum
Z: LSZH
Cable Type
2: 2-mm Indoor Cable
3: 3-mm Indoor Cable
T: Tactical Cable
D: I/O Cable
Connector, End B
LC: LC
SC: SC
LA: LC/APC
SA: SC/APC
Fiber Type
8: Bend-Insensitive
Single Mode
PIGTAILS
Part Number Configurator
X - L C - 8 - 2 - Z - 100
Type
Pigtail
Overall Length
Specify Length in Feet
Connector, End A
LC: LC
SC: SC
LA: LC/APC
SA: SC/APC
Jacket Options
R: Riser
P: Plenum
Z: LSZH
Cable Type
2: 2-mm Indoor Cable
3: 3-mm Indoor Cable
T: Tactical Cable
D: I/O Cable
B: Buffer
Fiber Type
Bend-Insensitive
Single Mode
Connector Finish
SMF UPC
SMF APC
Insertion Loss, Max
Return Loss, Min.
LC/SC
LC/SC
.25 dB
57 dB
65 dB
Tested by Phoenix Optix @ 1310 nm • Test Methods: IL per TIA/EIA-455-171 Method B •
RL per TIA/EIA-455-107 Method 1
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
FACEPLATES AND ADAPTERS
Single-Gang Faceplates
Ports
Part Number
Flush Faceplate
Angled Faceplate
1
306001-SG-XX-F
306001-SG-XX
2
306002-SG-XX-F
306002-SG-XX
4
306004-SG-XX-F
306004-SG-XX
6
—
306006-SG-XX
XX = Color: WH (White) or AL (Almond)
Adapters
Media Type
Fiber Optic
Copper RJ-45 Jacks
Style
Part Number
SC, Blue
SC-306-XX-SM
SC-APC, Green
SA-306-XX-SM
LC Duplex, Blue
LC-306-XX-SM
LC-APC Duplex, Green
LA-306-XX-SM
Category 5e
C5E-306-XX
Category 6
C6-306-XX
Category 6 Shielded
C6-306-XX-SH
For RJ-45s, XX = Color: RD (Red), GR (Green), GY (Gray), OR (Orange), BL (Blue), WH (White),
BE (Beige), YL (Yellow), BK (Black)
COPPER PATCH CORDS
Part Number Configurator
C6-050 DE B GY
Category
C5E: Cat 5e, Unshielded
C6: Cat 6, Unshielded
C6A: Cat 6A, Unshielded
C6S: Cat 6, Shielded
Length
Specify Cable Length in Feet
Connectors
DE: Double Ended
SE: Single Ended
Boot
B: Boot
Blank: No Boot
Jacket Color
BR: Brown RD: Red
GR: Green GY: Gray
PK: Pink
OR: Orange BL: Blue
WH: White
BE: Beige YL: Yellow PR: Purple BK: Black
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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Passive Optical LANs
FIELD-ASSEMBLY SC CONNECTORS
Fast Field Termination with No Epoxy and No Polish
Create a reliable and durable fiber-optic network, with
exceptional stability and low loss, with these connectors.
Termination time is less than 2 minutes.
• Fast, easy termination
• No epoxy and no polishing
•A
ccepts 250 μm loose-tube or 900 μm
tight-buffered fibers
•C
ompatible with 900 μm, 2 mm, and
3 mm boots
• Only two or three parts
• Factory finished ferrule PC or APC endface
Standard
TIA/EIA 604-3 (SC)
Insertion Loss
0.3 dB Typ. / 0.5 dB Max.
Return Loss
50 dB Typ. / 55 dB Max. (PC)
55 dB Typ. / 60 dB Max. (APC)
Durability, 500 Mating Cycles
≤ 0.3 dB
Tension, 3.0 kg
≤ 0.2 dB change
Temperature Change, 21 Cycles
from -40°C to +75°C
≤ 0.3 dB change
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
PAGE 11
For More Information
Phoenix Optix Support Center
15 Gray Lane, Suite 109, Ashaway, RI 02804, USA
)
)
+1 401 637 4600
SalesRI@phoenixoptix.com
7 +1 401 637 4606
) TechSupport@phoenixoptix.com
CONNECTIVITY SOLUTIONS TO CREATE HIGHLY RELIABLE, COST-SAVING
POINT-TO-MULTIPOINT POLS
PhoenixOptix.com
© 2015 TE Connectivity Ltd. family of companies. All Rights Reserved.
1-1773849-4 ADM/RRD 2.5M 07/2015
Phoenix Optix, TE Connectivity and the TE connectivity (logo) are trademarks of the
TE Connectivity Ltd. family of companies.
MTP is a registered trademark of US Conec. Other products, logos, and company names mentioned herein
may be trademarks of their respective owners.
While TE has made every reasonable effort to ensure the accuracy of the information herein, nothing herein
constitutes any guarantee that such information is error-free, or any other representation, warranty or
guarantee that the information is accurate, correct, reliable or current. The TE entity issuing this publication
reserves the right to make any adjustments to the information contained herein at any time without notice.
All implied warranties regarding the information contained herein, including, but not limited to, any implied
warranties of merchantability or fitness for a particular purpose are expressly disclaimed. The dimensions
herein are for reference purposes only and are subject to change without notice. Specifications are subject
to change without notice.
Consult TE for the latest dimensions and design specifications.
AEROSPACE, DEFENSE & MARINE /// PHOENIX OPTIX PASSIVE OPTICAL LANS
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