A1114AF-A YOKOGAWA, A1114AF-A Datasheet - Page 2

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A1114AF-A

Manufacturer Part Number
A1114AF-A
Description
45M7359
Manufacturer
YOKOGAWA
Datasheet
1.SU2005A-FCC.pdf (11 pages)

Specifications of A1114AF-A

Rohs Compliant
NA
For Use With
Yokogawa AQ7270 OTDR's
2
0.8m
0.8m
Meets a broad range of measurement needs from FTTH to metro networks.
Meets a broad range of measurement needs from FTTH to metro networks.
Dead-zone
Dead-zone
Dead-zone
Measure Near ...
Measure Near ...
— Can detect closely spaced events (up to 0.8m*)
Accompanying the rapid proliferation of FTTH is a growing
need for detection of reflective events arising from short-
distance mechanical connections. The AQ7270’s event
dead zone is the shortest in the world, enabling detection of
closely spaced events.
*: Based on company research of the field use OTDR, as of November 2006
FTTH / FTTB
... and Fast
... and Fast
— Powers-up quickly
(in 10 seconds or less)
Now measurements can be started quickly upon arrival at the site. 10
seconds to power-up from completely OFF to fully ON! With such a fast
power-up time, battery life can be extended by turning the power off while not
in use at the job site without any concern about the power-up time when the
next job is ready. It’s ready when you’re ready!
40dB
40dB
Metro networks
Dynamic range
Dynamic range
Dynamic range
CO
... or Far ...
... or Far ...
— High dynamic range (up to 40dB)
The high dynamic range of the AQ7270 enables accurate
measurement of optical fibers in short periods of time. This
makes it a powerful tool for evaluation of metro networks
with relay distances in excess of 100 km, or FTTH (PON)
and other short optical fiber networks with large insertion
loss originating from optical couplers.
Optical LAN / WAN
Access networks
Choose an Ideal OTDR
Choose an Ideal OTDR
From 1- to 4-wavelength models
The AQ7270 comes in eleven models combining different measurement wavelengths and dynamic ranges.
Supported wavelengths: 1310, 1490, 1550, 1625, 1650 nm (single mode), 850, and 1300 nm (multi mode).
Typical Model
Applicable
MMF/SMF
Fiber
MMF
SMF
Wavelengths
Number of
1
2
3
2
4
Use as a Light Source
Use as a Light Source
The light source (factory option) can be used for optical fiber identification.
850/1300/1310/1550nm
1310/1490/1550nm
1310/1550/1625nm
Wavelength
Optical power monitor screen
1310/1550nm
1550/1625nm
850/1300nm
1550nm
Use as an Optical Powermeter
Use as an Optical Powermeter
Using the power monitor (factory option), you can check optical power for link loss
testing or when troubleshooting. Useful for checking the optical power at the ONU’s
receiver in FTTH.
Dynamic Range
— 11-Model Lineup
34/32/22.5/24dB
34/30/32dB
34/32/28dB
40/38/35dB
22.5/24dB
34/32dB
40/38dB
38/35dB
32dB
— Light Source Function
735020
735022
735023
735024
735025
735026
735028
735029
735030
Model
1550 nm model for access networks and FTTH
For installation and maintenance of access networks and FTTH
For installation and maintenance of metro networks and access networks
Supporting maintenance wavelength 1625nm
Three-wavelength model for installation and maintenance of PON systems,
supporting 1490 nm
Three-wavelength model, supporting a maintenance wavelength of 1625nm
High dynamic range three-wavelength model, supporting a maintenance
wavelength of 1625nm
Multimode fiber model for LAN maintenance
Four-wavelength model for installation and maintenance of LAN and FTTH
with support for both multimode and single mode fiber.
Light source screen
Descriptions
— Power Monitoring Function
8.4
inch
High-intensity
large LCD
3