Optical time domain Reflectometer
NaveenKumar11
29,762 views
28 slides
Jan 09, 2012
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About This Presentation
Basic working of an Optical Time Domain Reflectometer is presented briefly.
Slide Content
Prepared by:
Naveen Kumar
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Naveen Kumar
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Outlines
What is OTDR?
Basic principle of operation.
Basic requirements for setup of OTDR.
Types of OTDRs available.
Testing using OTDR
Trace Analysis
Limitations
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What is OTDR?
Basic principle of operation.
Basic requirements for setup of OTDR.
Types of OTDRs available.
Testing using OTDR
Trace Analysis
Limitations
2
What is OTDR?
OTDR (Optical Time Domain Reflectometer) is a versatile
portable instrument that is used widely to evaluate the
characteristics of an installed fiber optic link.
It also measures optical fiber parameters such as
attenuation, length, optical connector and splices loss.
OTDR technology is designed to provide a single ended
test of any cable.
OTDR fundamentally is an Optical RADAR.
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OTDR (Optical Time Domain Reflectometer) is a versatile
portable instrument that is used widely to evaluate the
characteristics of an installed fiber optic link.
It also measures optical fiber parameters such as
attenuation, length, optical connector and splices loss.
OTDR technology is designed to provide a single ended
test of any cable.
OTDR fundamentally is an Optical RADAR.
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Basic operational principle
OTDR LASER
Signal processor
and display
Photodetector
Fiber under test
Return
Signals
Optical
Circulator
Input signal
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OTDR LASER
Signal processor
and display
Photodetector
Fiber under test
Return
Signals
Optical
Circulator
Input signal
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OTDR Setup
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OTDR Setup- RANGE
The first one to consider is “Range” or distance of fiber to test.
Many OTDRs have automatic length detection functions, but if the length
is known, the user can set the range manually. The range setting should
be adjusted to no less than 1.5 to 2x the fiber span under test.
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The first one to consider is “Range” or distance of fiber to test.
Many OTDRs have automatic length detection functions, but if the length
is known, the user can set the range manually. The range setting should
be adjusted to no less than 1.5 to 2x the fiber span under test.
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Range….
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OTDR Setup- Pulse Width
Longer pulse widths are used for longer range tests. As distance increases, pulse
width must go up, otherwise traces will appear “noisy” and rough.
Similarly, short traces will be inconclusive if long pulse widths are used (events
may be missed or clipped).
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Longer pulse widths are used for longer range tests. As distance increases, pulse
width must go up, otherwise traces will appear “noisy” and rough.
Similarly, short traces will be inconclusive if long pulse widths are used (events
may be missed or clipped).
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Pulse Width…
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OTDR Setup- Index of Refraction
In review, the Index of Refraction is a way of measuring the speed of
light in a material. Light travels fastest in a vacuum, such as outer
space. The actual speed of light in a vacuum is 300,000 kilometers per
second, or 186,000 miles per second. Index of Refraction is calculated
by dividing the speed of light in a vacuum by the speed of light in
some other medium.
Index of Refraction = Speed of Light in a Vacuum
Speed of Light in a Medium
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In review, the Index of Refraction is a way of measuring the speed of
light in a material. Light travels fastest in a vacuum, such as outer
space. The actual speed of light in a vacuum is 300,000 kilometers per
second, or 186,000 miles per second. Index of Refraction is calculated
by dividing the speed of light in a vacuum by the speed of light in
some other medium.
Index of Refraction = Speed of Light in a Vacuum
Speed of Light in a Medium
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Index of Refraction…
If the Group Index of Refraction (GIR) setting in the OTDR does not
match that of the fiber under test, the results will show incorrect
distances as a result.
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If the Group Index of Refraction (GIR) setting in the OTDR does not
match that of the fiber under test, the results will show incorrect
distances as a result.
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OTDR Setup- Averaging Time
Averaging time refers to how long the user allows the device to take
samples (how long the test “runs”). The longer the testing/averaging time
allowed, the better the result. Eventually, enough data is averaged for a
good test and continuing to test won’t yield any more of an accurate
result.
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Averaging time refers to how long the user allows the device to take
samples (how long the test “runs”). The longer the testing/averaging time
allowed, the better the result. Eventually, enough data is averaged for a
good test and continuing to test won’t yield any more of an accurate
result.
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OTDR Setup- Averaging Time…
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OTDR Types
Most common OTDRs use a “console” design allowing the user to upgrade or
swap between MM and SM modules.
These offer similar analytical features to the lab quality OTDRs, but are more
rugged and field portable. Files can be saved to various media and later
downloaded to a PC.
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Most common OTDRs use a “console” design allowing the user to upgrade or
swap between MM and SM modules.
These offer similar analytical features to the lab quality OTDRs, but are more
rugged and field portable. Files can be saved to various media and later
downloaded to a PC.
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Micro OTDRs
Micro-OTDRs are the next generation of fast, economical test sets for field
use. These models offer fewer features than the larger console design and
are currently not upgradeable.
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Micro-OTDRs are the next generation of fast, economical test sets for field
use. These models offer fewer features than the larger console design and
are currently not upgradeable.
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OTDR Testing
Generates a baseline trace: A “visual” of the link.
Can identify and evaluate specific events in the link.
Cable acceptance tool.
Fault location tool.
Excellent documentation capabilities.
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Generates a baseline trace: A “visual” of the link.
Can identify and evaluate specific events in the link.
Cable acceptance tool.
Fault location tool.
Excellent documentation capabilities.
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Troubleshooting Tools Used
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OTDR Trace Analysis
Connect the OTDR to a launch (suppression/reference) cable. The
secondary end of the launch cable will be connected to an access panel
at one end of the fiber optic span under test. Optionally, a receive cable
can be attached at the far end.
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Connect the OTDR to a launch (suppression/reference) cable. The
secondary end of the launch cable will be connected to an access panel
at one end of the fiber optic span under test. Optionally, a receive cable
can be attached at the far end.
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Observations on display
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Trace Analysis….
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Trace Analysis….
Most commonly, users manipulate two cursors, “A” and “B”, to
illustrate what is referred to as “two point loss” on an OTDR result.
This can be used to show loss in a single event or in a group of
events. These cursors can be individually moved left and right to
specific points on the result.
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Most commonly, users manipulate two cursors, “A” and “B”, to
illustrate what is referred to as “two point loss” on an OTDR result.
This can be used to show loss in a single event or in a group of
events. These cursors can be individually moved left and right to
specific points on the result.
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Trace Analysis….
Use cursor/markers to isolate individual events, such as the repair
splice location (above)…
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Use cursor/markers to isolate individual events, such as the repair
splice location (above)…
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Trace Analysis….
…or the two point loss (attenuation) of an entire network span (above)
…
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…or the two point loss (attenuation) of an entire network span (above)
…
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Trace Analysis….
…or the physical length of a fiber span (above).
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…or the physical length of a fiber span (above).
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OTDR Limitations
The limited distance resolution of the OTDR makes it very hard to use
in a LAN or building environment where cables are usually only a few
hundred meters long.
The OTDR has a great deal of difficulty resolving features in the short
cables of a LAN and is likely to show "ghosts" from reflections at
connectors, which confuses the user.
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The limited distance resolution of the OTDR makes it very hard to use
in a LAN or building environment where cables are usually only a few
hundred meters long.
The OTDR has a great deal of difficulty resolving features in the short
cables of a LAN and is likely to show "ghosts" from reflections at
connectors, which confuses the user.
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Refrences
Optical Fiber Communications- John M. Senior
Optical Fiber Communication- Gerd Keiser
http://www.lanshack.com/fiber-optic-tutorial-testing.aspx
www.fibernext.com
http://www.jimhayes.com/OTDR/otdrs_c.htm
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Optical Fiber Communications- John M. Senior
Optical Fiber Communication- Gerd Keiser
http://www.lanshack.com/fiber-optic-tutorial-testing.aspx
www.fibernext.com
http://www.jimhayes.com/OTDR/otdrs_c.htm
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Where to find me..
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[email protected]
www.facebook.com/chd.naveen
www.slideshare.net/NaveenKumar11
Website: www.elixir-india.com
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[email protected]
www.facebook.com/chd.naveen
www.slideshare.net/NaveenKumar11
Website: www.elixir-india.com
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