Tektronix TFP2A Medidor de Nível
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Modelo:
TFP2A
Data:
1997
Categoria:
Grupo:
Descrição:
Optical Time-Domain Reflectometer
Informação
The Tektronix TFP2A FiberMaster Optical Time-Domain
Reflectometer (OTDR) is
an optical-fiber test instrument capable of measuring loss
characteristics and
displaying faults, splices, and other fiber events in
singlemode and multimode optical
fibers.
FiberMaster applies pulses of light to the fiber under test
via the optical output
connector. As the pulses travel through the fiber, some
light is reflected back to the
instrument. These reflections are processed to display a
visual representation of the
fiber on FiberMaster’s cathode ray tube (CRT), where you can
make distance and
loss measurements on the fiber under test.
The CRT display is a time plot, read from left to right. The
trace starts with the
outgoing pulse, and the time difference is converted to
distance in the measurement
process. When you view a typical fiber display, events that
are further down the fiber
appear to the right (later in time). Loss is measured on the
CRT’s vertical scale.
Modular, Plug-In Laser Sources
❏
The FiberMaster OTDR was designed using a modular approach
that allows you
to choose options that answer your specific test and
measurement applications.
You can upgrade your instrument configuration as your system
requirements
change. FiberMaster can accommodate 850-nanometer (nm)
multimode, 1300-
nm multimode, 1310-nm singlemode, and 1550-nm singlemode
laser sources in
one or two Plug-In modules. The modules can contain either
two singlemode or
two multimode lasers, or any single laser, allowing the
instrument to be
configured with one to all four wavelengths.
❏
Temperature-controlled laser light sources ensure stable
wavelength and optical
output for highly accurate measurements.
Accurate, High-Speed
Data Acquisition and Measurement
❏
The internal 32-bit microprocessor performs up to 16
million high-speed
averages per acquisition, maximizing the signal-to-noise
ratio, giving a clear
display of fiber events.
❏
FiberMaster measures a specific fiber feature, with
single-keystroke
convenience. In addition, manual adjustments provide
extended flexibility in
interpreting the fiber data.
❏
An expand function allows you to magnify any portion or
feature on the displayed
fiber acquisition.
❏
FiberMaster’s high-density acquisition capability offers
extended expansion
capacity and highly accurate measurements.
❏
A masking function can be performed automatically, or you
can set manual
masks to reduce dead zones caused by large Fresnel
reflections, improving
measurement resolution.
Automatic and Manual Event Marking
❏
The instrument’s event-marking function automatically
locates and measures
events on the fiber under test that have splice losses above
a user-specified
threshold, or you can also mark events manually.
❏
An event table is compiled displaying the measurements for
each marked event.
You can edit and print out this table, plus enter notes and
mapping information
about each event.
Extended Memory and
Storage Capacity
❏
FiberMaster offers both a current memory, containing the
current data
acquisition, and a reference memory, for previously acquired
fiber waveform
data. A dual-trace mode makes it possible to display the
contents of both current
and reference memory simultaneously, allowing you to compare
a current
optical-fiber acquisition to historical data.
❏
Mass-storage devices (the standard floppy-disk drive and
optional internal RAM)
permit unlimited storage of waveform and settings data on
both removable and
internal media.
Hardcopy Options
❏
You can choose the optional high-speed internal thermal
printer, or use
FiberMaster with either an IEEE 488 general-purpose
Interface bus (GPIB)
external plotter or printer, or an RS232 external plotter or
printer. One press of a
button on the instrument’s front panel provides a 15-second
hard copy of the
displayed waveform and instrument settings on the internal
printer.
Remote Control Capability
❏
The FiberMaster OTDR can be operated under the remote
control of an
instrument controller or a computer with a GPIB Interface,
using an IEEE 488
general-purpose Interface bus, or via the RS-232 serial
interface.
Additional Features
❏
An easy-to-use menu system simplifies setting instrument
measurement
parameters.
❏
You can upload and download waveform and settings data
using the RS232
Interface and XModem protocol.
❏
The 7-inch diagonal, high-resolution color or monochrome
CRT provides a
comprehensive on-screen readout of waveform and measurement
data, and
instrument settings.
❏
Online help displays context-sensitive operator assistance
at the press of a
button.
❏
Rugged, portable construction is also lightweight—under 35
pounds (15
kilograms).
Tipo de manual:
Manual de serviço
Páginas:
230
Tamanho:
2.29 Mbytes (2400695 Bytes)
Idioma:
english
Revisão:
A
ID de manual:
070-9188-03
Data:
1997 04 01
Qualidade:
Documento eletrônico, digitalização, bem legível.
Data de upload:
2017 12 25
MD5:
46c5559e1e25f4ba031ba5060b5368a5
Downloads:
401
Informação
The FiberMaster Module-Level Service Manual consists of six
chapters and two
appendices, containing the following information:
❏
Chapter 1, Introduction, provides a description of the
FiberMaster OTDR,
unpacking and repacking instructions, and instrument
specifications.
❏
Chapter 2, General Operating Instructions, describes the
functions of each of the
front- and rear-panel controls and connectors, at a level
appropriate for servicing
the instrument. (For complete operating instructions, refer
to the FiberMaster
User Manual.)
❏
Chapter 3, Theory of Operation, contains a block-level
description of the
instrument’s operation, as well as a block-level diagram.
❏
Chapter 4, Maintenance, contains the information needed to
do periodic and
corrective maintenance on the FiberMaster, including
inspection and cleaning,
performance verification and adjustment, troubleshooting,
and module removal
and replacement procedures.
❏
❏
Chapter 5, Replaceable Parts, includes a list of
module-level replaceable parts
and exploded-view drawings of their locations in the instrument.
Chapter 6, Diagrams, contains module-level block diagrams.
❏
Appendices include data sheets for recording instrument
performance
information, GPIB and RS232 connection tables, instructions
on upgrading
firmware, and a listing of error codes.