Post on 22-Jan-2018
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Fundamentals and Applications of
Course Wave Division Multiplexing
(CWDM)
TECHNET
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• WDM Technology Overview
• What are the features/benefits for CWDM
• Real-World Use Case/Examples
• CWDM vs. DWDM
• Summary
Agenda
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WDM Defined
Wavelength Division Multiplexing . . .
. . . a technology which multiplexes multiple optical carrier
signals on a single optical fiber by using different wavelengths
(colors) of light to carry each individual signal
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Why WDM Technology ?
• Traditionally
– Each fiber connection requires two strands of fiber• one for TX and one for RX
• Fully Consumed
– What do you do when all of your installed fiber is used up and you need to add more links?
• Install more fiber?
• Lease more fiber?
• Deploy WDM Technology
• Fiber Exhaustion
– Is the primary driver for the use of WDM technology
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WDM Analogy
Highway analogy for WDM:
If we increase the number of lanes on a highway, we
can increase the volume of traffic. Each lane has the
same capacity and speed limit as before, but our
capacity is increased by the factor equal to the
number of lanes
Alternatives to increase capacity
Building a new highway = installing more fiber
Increasing the speed limit = upgrading from FE to Gigabit
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• Increase capacity between locations using the existing fiber
• Create more connections over fiber that’s been exhausted
• Support multiple protocols (DS1, DS3, Ocx, GE, 10G), all running on same fiber pair
• Customer’s existing network equipment utilized
• Solution is all “Passive” not requiring any active electronics or power
• Solution can be used either Point to Point or as an Optical Add/Drop Multiplexer (OADM) deployment
• Customer Equipment fixed optics can be converted to CWDM optics
Qualifications
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WDM Principle – Multiplexing/Demultiplexing
Mu
ltip
lex
er1, 2, 3, 4
1
2
3
4
Dem
ult
iple
xer
2
3
4
1
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Support for WDM
• A wide variety of communication environments support WDM technology
– Fast Ethernet - OC-3/FDDI/ATM
– 10/100 - RS232
– Gigabit Ethernet - RS422/485
– 10/100/1000 - High Speed Serial
– Ethernet NIDs - NICs
– T1/E1 - SFPs
– DS3/E3 - Industrial Ethernet
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WDM Types
Type Channels Channel
spacing
Remarks
WWDM 2 100 nm or
more
- Typically 1310nm and 1550nm
- Inexpensive
- Can be done by transceiver
CWDM 4 - 16 20nm - Higher channel counts than WWDM
- Lower cost than DWDM
- Passive optical components – Mux/DeMux
DWDM 8 - 160 0.8 or 1.6
nm
- Max 16 ch. for passive OC
- Active solutions add management and
other features
3 Types WDM Technology
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WWDM Transceiver
Wideband WDM can sometimes be referred to as WWDM
Typically 2 wavelengths – 1310nm and 1490/1550nm
Analogy: Two lane country road – one lane in each direction
Bi-directionally, over one strand of fiber
Offers potential to double the fiber capacity of existing network
Available in SFP modules and in fixed optics
WDM WDM
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WWDM Common Application
• Moving from duplex fiber to simplex fiber– Doubling current fiber plant
• Media Conversion– Fiber ports use a simplex optic
• Single fiber, single strand, or simplex fiber
• Photo below show single SC connector
– Inexpensive option to start taking advantage of WDM technology
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CWDM – Multiplexer/Demultiplexer
Type Channels Channel
spacing
Remarks
WWDM 2 100 nm
or more
- Typically 1310nm and 1550nm
- Inexpensive
- Can be done by transceiver
CWDM 4 - 16 20nm - Higher channel counts than WWDM
- Lower cost than DWDM
- Passive optical components – Mux/DeMux
DWDM 8 - 160 0.8 or 1.6
nm
- Max 16 ch. for passive OC
- Active solutions add management and
other features
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Coarse WDM
Typically 4, 8, or 16 wavelengths – encompassing 1310nm to 1610nm
Analogy: Multi-lane divided highway
Typically used uni-directionally
Single Strand for Transmit and a single strand for receive
Or as an optical add/drop mux (OADM)
WDM WDMWDM
WDM WDM
WDMWDM
CWDM – Multiplexer/Demultiplexer
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CWDM – Multiplexer/Demultiplexer
Typical 1550nm window wavelengths = 1470nm to 1610nm in 20nm
increments
Typical 1310nm window wavelengths = 1270nm to 1410nm in 20nm
increments
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DWDM – Multiplexer/Demultiplexer
Type Channels Channel
spacing
Remarks
WDM 2 100 nm
or more
- Typically 1310nm and 1550nm
- Inexpensive
- Can be done by transceiver
CWDM 4 - 16 20nm - Higher channel counts than WWDM
- Lower cost than DWDM
- Passive optical components – Mu/DeMux
DWDM 8 - 160 0.8 or
1.6 nm
- Max 16 ch. for passive OC
- Active solutions add management and
other features
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DWDM – Multiplexer/Demultiplexer
Dense WDM
Typically 8 or more wavelengths – centered around 1550nm
Typically used uni-directionally or as an optical add/drop mux (OADM)
Adds a Reprogrammable Optical Add/Drop (ROADM)
Channel spacing typically 0.8nm (100GHz) or 1.6nm (200GHz)
160 channels possible on active systems (max. 40 channels passive) using
0.2nm (25GHz) channel spacing
Active systems very expensive
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DWDM – Multiplexer/Demultiplexer
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Features/Benefits for CWDM
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• There are many influences for the growth of 10G and it’s
expansion into the Enterprise, Industrial Environments,
and Service Provider Networks
1. 10G hardware has become more economical
2. Business Ethernet and Ethernet Mobile Backhaul has evolved
with a need for higher capacity
3. CWDM Multiplexers are passive and agnostic of protocol or
speed
4. Increased bandwidth requirements for Cloud Networking
5. Increased device connections over fiber pairs
CWDM Technology – Increased Bandwidth
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Business Fiber Networks• Increased Bandwidth — 1GE, 10GE connections allowed
• Logical Security — Different Wavelength Paths
Fiber Exhaustion• CWDM Units — Creation of Multiple Fiber Wavelength paths in same
fiber
• Decreases CAPEX — Increases current fiber capacity without installation and deployment of more fiber cables
CWDM Technology – Fiber Conservation
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CWDM Principle – Multiplexing/Demultiplexing
1470nm 1490nm 1510nm 1530nm 1550nm 1570nm 1590nm 1610nm
CWDM
MUX
1310nm1610nm
20nm spacing
1350nm 1370nm 1390nm 1410nm1330nm1310nm 1450nm1430nm
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• Completely passive WDM devices use thin film filters to Mux and Demux the wavelengths
• Requires no external power supplies• Compatible with all single mode fiber• Compatible with all WDM wavelength based electronics• Transparent to speed, support everything from 100M to 10G
To 1550nm RX port
To 1510nm RX port
To 1530nm RX port
To 1570nm RX port
From Line RX port
CWDM Technology
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CWDM Technology
• OADM – Optical Add/Drop Multiplexer– All the light paths that directly pass an OADM are termed cut-through
light paths, while those that are added or dropped at the OADM node are termed added/dropped light paths
Fiber Pair Out
Fiber Pair In
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CWDM – Fixed Optics ????
1310nm
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CWDM – Fixed Optics Converted
S3100-4040 100Mbps to 2.5Gbps fiber
repeater with two open SFP slots
S4110-4848 1 Gbps to 11.5Gbps fiber
repeater with two open SFP+ slots
Wideband
1310nm
CWDM
1570nm
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CWDM Implementation
Customer
Driven
Traffic Type, Demand,
and System Scalability
Node Filter Architecture
(Channel Assignment)
System Architecture
(Receiver Levels,
Amplifier &
Dispersion needs)
STAGE 1
STAGE 2
STAGE 3
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CWDM Service and Topology Requirements
Service Requirements
• What kind of services will be deployed on this network?
- 100 Mb
- 1 Gb
- 10 Gb
• Do these services require protection?
Topology Requirements
• Will this be a Linear or Ring Transport System?
• How many nodes, distance between nodes, and fiber loss?
• What is the traffic flow?
• What kind and how many fibers are available?
• What size system is needed for deployment?
• Are Add/Drop locations required?
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CWDM Service Specifications
Link Budget
• 1 km Fiber loss: introduces 0.3 db loss
• Connector loss: introduces 0.3 db loss
• Splice loss: introduces 0.3 db loss
• CWDM Mux loss: introduces 3.3 db loss (includes 1 connector)
• CWDM Add/Drop loss: introduces 1.1 db loss (includes 1 connector)
SFP Laser StrengthTN-SFP-OC48S-Cxx 1GE, SM, LC, 40 km Link Budget: 18.0 dB (TX Pwr + RX Sensitivity)
TN-SFP-LX8-Cxx 1GE, SM, LC, 80 km Link Budget: 24.0 dB (TX Pwr + RX Sensitivity)
TN-SFP-LX16-Cxx 1GE, SM, LC, 160 km Link Budget: 37.0 dB (TX Pwr + RX Sensitivity)
Example: [Receiver Sensitivity Range +3dB to -21dB)
SFP(+0.0 dB)CWDM Mux(-3.3dB) connector(-.3dB) 40km of Fiber(-8.0dB) connector(-.3dB) CWDM
Mux(-3.3dB) = -15.2dB
(Note: Always have 2 dB safety margin in the budget)
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Real World Examples
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CWDM Common Topologies
Point-to-Point
• Alleviate fiber congestion:
Reducing backbone fiber used by a factor of 4, 8 or 16
Increasing capacity on each backbone fiber by a factor of 4, 8 or 16
8 Channel
CWDM Box
8 Channel
CWDM Box
MuxDemux
Mux Demux
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Ring
MuxDemux MuxDemux
Mux DemuxMux Demux
Mux
Demux
Mux
DemuxMux
Demux
Mux
Demux
8 Channel CWDM Boxes
(2) at each location
Building D
Building C
Building A
Building B
CWDM Common Topologies
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CWDM Media Converter Application
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CWDM – Security Camera Application
Application Summary
- Control Center has 2 Pairs of Fiber to remote Parking Center
- Control Center needs fiber connections to 18 Security Cameras/Alarm Boards
because of copper distance limitation
- It is cost preventative to trench and place conduit of more fiber pairs
Transition Network’s Solution
Install (16) Channel and (8) Channel CWDM Multiplexers
Install 24 port Fiber Switch
Install Remote Add/Drop Multiplexers and F/C Media Converters with CWDM SFPs
Benefits
Lower CAPEX/OPEX
No Need for more fiber, 18 Cameras/Alarm Boards supported on 2 fiber pairs
Copper distance limitation overcome
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CWDM – Security Camera Application
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CWDM – Security Camera Application
Control Center
Master Alarm Board
VMS
TN SM24DPA Fiber Switch
CWDM-M1631LCR
CWDM-M847LCR
2 Fibers to Field
Enclosure #1 & #2
2 Fibers to Field
Enclosure #3
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#1 Field Enclosure M/GE-T-SFP-01
M/GE-T-SFP-01Alarm Board
2 Fibers from
Control Center
2 Fibers to
# 2 Field
Enclosure
CWDM – Security Camera Application
1310 Drop
1330 Drop
1350 Drop
1370 Drop
1390 Drop
1410 Drop
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#2 Field Enclosure M/GE-T-SFP-01
M/GE-T-SFP-01Alarm Board
2 Fibers from # 1
Field Enclosure
CWDM – Security Camera Application
1430 Drop
1450 Drop
1470 Drop
1490 Drop
1530 Drop
1510 Drop
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#3 Field Enclosure M/GE-T-SFP-01
M/GE-T-SFP-01Alarm Board
CWDM – Security Camera Application
2 Fibers from
Control Center
1510 Drop
1550 Drop
1570 Drop
1530 Drop
1490 Drop
1470 Drop
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CWDM – AFB Application
Application Summary
- Control Center has switching data, security and VoIP services to support in
many buildings onsite
- There fiber pairs in a loop around the AFB facility
- The fiber pairs are connected directly to access equipment from point to point
- They need to free up some fiber pairs to connect to additional buildings
- It is cost preventative to trench and place conduit of more fiber pairs
Transition Network’s Solution
Install (8) Channel CWDM Multiplexer
Install Remote Add/Drop CWDM Multiplexers at additional buildings
Benefits
Lower CAPEX/OPEX
No Need for more fiber, additional fiber connections supported on 1 fiber pair
Other fiber pairs are available from freeing up building connection pair
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1590 Drop1570 Drop1550 Drop
Control
Center
MaintenanceHangar #1
CWDM – AFB Application
2 Fibers
Hangar #2
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CWDM – Military Application
Application Summary
- Provide a simple method to increase fiber capacity
- Physically separate the ECS network from the Com/Data Telco infrastructure
- Achieve the result of increasing security
- Address an implementation plan that can be built in a phased in approach
- There fiber pairs in a loop around the bases footprint
- It is cost preventative to trench and place conduit of more fiber pairs
Transition Network’s Solution
Install (16) Channel CWDM Multiplexers
Benefits
Lower CAPEX/OPEX
No Need for more fiber, additional fiber connections supported on 1 fiber pair
Other fiber pairs are available from freeing up additional connection pairs
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CWDM – Military Application
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Single Strand CWDM
• Uses two different wavelength SFP modules
– 1470 one direction
– 1490 the other direction
• Cuts channels in half
– An 8-channel mux can send 4-channels on one strand
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8-ChannelSingle Strand
Uses 16-channel Muxes
Maximum on one strand
Single Strand CWDM
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Single Strand CWDM
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CWDM vs. DWDM
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CWDM versus DWDM
Parameter CWDM DWDM
Inter channel spacing 20nm As low as 0.2nm
Number of channels Up to 16 More than 160
Communication Range 40-80km - 200km
Optics Fixed Laser Tunable Laser
Cost Lower Higher
Market Metro, Access,
Large enterprise
Long Haul
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Summary
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• Increase fiber capacity without pulling more fiber
• Multiple protocols all running on same fiber pair
• Passive Layer 1 Solution. Customer’s traffic remains untouched
• xWDM optics available as fixed or pluggable (SFP, XFP, etc.)
• Convert existing wideband optics to narrowband xWDM colors with use of “optical line converters” or “transponders”
• Solution can be used either Point to Point or as an Add/Drop Multiplexer (OADM)
• CWDM 10G offers many benefits to service providers that need to better utilize the existing fiber infrastructure.
xWDM Summary
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CWDM Value Proposition
• Easy deployment and flexible implementation
“Plug and play,” no configuration of CWDM components
Enable point-to-point, hub-and-spoke, ring, and meshed architectures on
top of SMF ring
• Flexibility
Allow flexible and highly available multiservice network design with multi-
protocol media converters
• Scalability
Provide scalable Ethernet bandwidth between 100Mb and 160 Gbps
over existing single mode fiber pairs
• Investment protection
Use existing standard optical ports on switches and routers
• With use of xFMFF4040 as transponder
Increase bandwidth on existing fiber infrastructure
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Questions?
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