Description
The WDME is a versatile, sliced spectrum source that can
replace banks of expensive DFB lasers and associated equipment.
The WDME is used in designing, testing, manufacturing and
maintaining DWDM and EDFA systems.
The output is a stable, accurately spaced comb signal that
can be adjusted and modified to suit the application, with
an internal amplified spontaneous emission (ASE) source
as an input. User-friendly front panel controls allow the
operator to easily shift the comb up or down by up to 100GHz.
The WDME provides maximum flexibility and minimum setup
time by combining two FSR matched, independently-controlled
Fabry-Perot interferometer filters. These filters closely
follow the theoretical Airy Function, which allows for noiseless-profile
amplification through an external Erbium- Doped Fiber Amplifiers
(EDFAs). The filter inputs and outputs can be accessed via
the front panel, and can be connected alone, in series,
or in parallel to provide a wide array of test configurations.
This single instrument can replace bulky, complex, and difficult-to-operate
multiple-laser systems for a fraction of the cost.
Features
- Simplifies testing of DWDM and
EDFA systems
- Reduces final functional testing
setup and maintenance time
- Replaces banks of expensive DFB
lasers and associated equipment
- Produces stable and uniform transmission
peaks that mimic various DWDM channel plans
- Useful for testing modulation
schemes within optical add-drop muxes
- Useful for demonstration of DWDM
system performance
Applications
- Channel cross-talk, isolation,
and attenuation tests. The WDME comb signal can be
used as input for testing the critical parameters of an
EDFA. The WDME signal can also be utilized to test DWDM-Demux
components and systems without having to buy, maintain,
and multiplex multiple expensive DFB lasers.
- Test high dynamic range systems.
The two FSR-matched and Finesse-matched filters can be
connected in series to maximize contrast between the peak
and valley of the comb signal (see Fig. 1). As much as
52 dB of contrast can be achieved.
- Test the effects encroaching
adjacent channels in a WDM system. System robustness
tests can be performed by offsetting one filter comb from
the other and by combining the filter outputs through
a coupler (see Fig. 2).
Specifications
|
