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Fujikura FSM-11S
The SpliceMate (FSM-11) is the world’s smallest and most portable fusion
splicer, designed to meet the challenges posed by today’s fiber networks.
Fitting in the palm of your hand, the SpliceMate is smart and reliable enough to
be used with confidence by inexperienced operators.
SpliceMate’s advanced
intelligence features include dual-camera fiber inspection to insure the splice
is right, and auto arc calibration...an industry first. It’s easy to operate and
quickly makes low loss splices with all common types of optical fibers up to
4-fiber ribbons. The SpliceMate is available with a variety of powering options
including a battery pack and adapters to work with AC or DC power
sources.
A workstation, specifically designed for the SpliceMate, is
available for simplified splicing in the field. Whether splicing on a pole, in a
bucket, or in a neighborhood
SpliceMate is the splicer to have along on the job!
Features:
- Highly portable
- Dual camera inspection
- 3.5” dual direction monitor
- Single or 4-fiber versions available
- 40 second tube heater
- Auto arc calibration
- 30 mph wind protector
Specifications
| Parameter |
Value |
| Applicable Fibers |
SMF, MMF, NZ-DSF, DSF |
| Number of Fiber |
Single fiber (FSM-11S) |
| Cladding Diameter |
125µm |
| Coating Diameter |
250µm and 900µm |
| Typical Average Splice Loss |
SMF = 0.05dB / MMF = 0.02dB |
| Splicing Time |
FSM-11S (11 seconds) |
| Arc Calibration Method |
Automatic and manual methods |
| Splicing Modes (40) |
Auto SM / NZ / DS Auto MM SM, MM,
NZ-DSF, DSF |
| Splice Loss |
Estimate Based on dual camera inspection |
| Monitor |
3.5", adjustable monitor angle
(front or top selectable) |
| Tube Heating Time |
40 seconds |
| Number of Splice / Heat with
Battery |
30 |
| Power Supply |
AC, DC, Battery |
| Terminals |
USB |
| Wind Protection |
30 mph |
| Dimensions |
110W x 80D x 100H (mm) / 4.33W x
3.14D x 3.94H (inches) |
| Weight with Battery |
0.80kg / 1.76 lbs. |
E6000B
The Agilent/HP E6000B Mainframe maximizes your
network uptime by locating and characterizing faults quickly and
accurately.
The combination of 16,000 data points and a
minimum sample spacing of 8cm allows the powerful analysis algorithm to
determine the exact location and characteristic of an event.
The Agilent/HP E6000B OTDR repeatedly outputs an
optical pulse into the connected fiber and measures the reflections from this
pulse. The trace displayed on the screen is a graph of this reflected power
(backscatter) as a function of the distance along the fiber.
Events are changes in the fiber causing the
trace to deviate from a straight line. Events can be Reflective or
Non-Reflective.
Reflective Events occur when some of the pulse
energy is reflected, for example at a connector. Non-Reflective Events occur at
parts of the fiber where there is some loss but no light is reflected.
Non-Reflective Events produce a dip on the trace.
The E6000B OTDR calculates the distance of such
an "event" in the fiber from the time it takes the reflected signal to return.
The further away an event is, the longer it takes for its reflection to return
to the E6000B OTDR.
A fully automatic function is available and the
E6000B OTDR sets itself up to achieve the best results for the measurements such
as the location (distance) of events on the link, the end of the link or a
break, the attenuation coefficient of the fiber in the link, the loss of an
individual event or the total end-to-end loss of the link, the magnitude of the
reflection (or reflectance) of an event, such as a connector, the cumulative
loss to an event can be measured automatically.
The Agilent E6000B can operate through the
supplied AC adapter between 100V and 240V ±10%, at a frequency in the range from
50 to 60 Hz. The maximum power consumption is 30VA with all options
installed.
The Agilent E6000B can operate from a DC power
source that supplies between 16V and 24V. The maximum power consumption during a
quick charge is 30W with all options installed. Typical power consumption is
below 8W.
Key Points:
- Built in Applications
- Built in multi fiber test
- With template mode
- One button operation
- Automatic event adjustment
- 15 secs power up cycle
- Automatic fiber characteristic
| Brand |
Agilent /
HP |
| Model |
E6000B |
| Description |
Mini OTDR
Mainframe |
| Category |
OTDR |
| Sub
Category |
N/A |
| Specifications: |
| User
Interface |
Proprietary |
| Input
Power |
Universal |
| Inter
memory |
Up to 200
traces |
| Operating
Temperature |
0 to 50 deg
C |
| Storage
Temperature |
-40 to 60 deg
C |
| Dimensions |
194 mm H, 290 mm W,
75 mm D (7.7" x 11.4" x 3.0") |
| Weight |
net < 2.9 kg (6.4
lbs) |
E6003A
Specifications:
| Wavelength |
1310/1550nm |
| Dynamic Range
(dB) |
35/34dB |
| Event
Deadline |
3m |
| Attenuation Dead
Zone |
10/12m |
| Recommended
Application |
Metropolitan/Trunk |
| Fiber Type |
Single-Mode |
| Module |
E6003A |
E6007A
Characteristics
Source type: Laser
diode
Center Wavelength: 635 nm ± 10
nm (visible red light)
Output power level
(CW)
- 0 dBm maximum
- into 9µm fiber (typ.): -3 dBm
Detection range: up to 5
km
Optical output:
User-exchangeable Connector Interface
Laser Class II (21 CFR 1040), Class II (IEC
825-1)
Supplementary Performance
Characteristics
- Continuous Wave and Blink Mode(1 Hz for
better visibility).
- Single-Mode and multimode fibers
applicable.
General
Specifications:
Dimensions: ca. 120 mm H x 40
mm W x 25 mm D (4.7? x 1.6? x 1.0?)
Weight: < 100g
Operating Temperature: 0 to 40
°C
Storage Temperature: -40 to +60
°C
Humidity: 95% R.H. from 0°C to
40°C non cond
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