MAP-200 Platform Overview
Multiple
Application
Platform
(MAP-200)
Platform Overview
Flexible, Dynamic Solution for
Comprehensive Optical and Electro-Optical
Testing
The Viavi Solutions™ Multiple Application Platform (MAP-200) is
designed to help manage the test and measurement needs of an
industry that requires flexibility and dynamic performance. Our
goal is to offer researchers, designers, and manufacturing engineers
a platform that exceeds all others with its modularity, reliability,
and flexibility. The MAP-200 module breadth and performance are
consistent with the fiber optic technology leadership from Viavi.
Outstanding Support
Viavi is committed to providing you with the strongest possible
application support—a commitment that extends beyond the
operation of our products to understanding the specifics of the
measurements being implemented. We believe in learning from every
customer interaction. Combining your measurement experiences with
ours and leveraging the flexibility and performance of our products,
enables us to deliver more powerful solutions.
We strive to optimize measurement performance, reduce cycle times,
and minimize ownership costs. Together, we can create solutions
within your capital budget that simplify your development, without
compromising the performance and reliability necessary to keep your
program or factory on track.
Our next-generation products are born out of your needs.
Throughout our history, we have listened to our customers with
eagerness to explore new ideas and opportunities. These ideas may
range from simple product enhancements to new product concepts.
We have confidence in our product breadth, yet we are equally
driven toward finding innovative ways to add value to your test and
measurement applications.
Targeted Tools–The MAP-200 Solution
Selection Guide
Multiple MAP-200 Mainframe Configurations
The MAP-200 mainframes are offered in three configurations for
optimal adaptability within test sets: a three-slot configuration and a
19-inch rack, eight-slot configuration with either front- or rear-facing
orientation for optimal fiber routing. All three configurations are
3 RU high. The MAP-200 mainframes include all hardward required for
bench-top use, including rubber-accented feet located at the corners
for optimal stability and vibration isolation. Investment protection is
maximized for previous-generation MAP customers using a simple
transition kit that allows the insertion of previously field-deployed
MAP modules in the MAP-200 mainframe. The MAP-200 also provides
additional cost savings by letting users share the modules within
a mainframe.
2 Multiple Application Platform (MAP-200)
The MAP-200 Solution Selection Guide
MAP Variable Backreflector
MAP EDFA
Provides precise levels of return loss to transmitters allowing
Available in six configurations: pre-amplifier, booster, booster-high
function of backreflection. Available in single-mode or multi-mode
power, mid-span access booster, in-line and booster-DWDM. Features
a low noise figure, high output power, and high gain. Currently the
high power booster model offers an output of 21 dBm.
measurements of system sensitivity or system degradation as a
and with an optional coupler for monitoring.
Page 19
Page 11
MAP Tunable Filter
Tunable bandpass filter offers continuous wavelength tuning from
MAP Variable Optical Attenuator
A high resolution, wide wavelength range attenuator. Available
with 1 or 2 devices per module, single-mode or multimode fiber,
four standard connector types, and tap option or optional power
1520 to 1630 nm. The standard model provides 300 mW maximum
input power. The high power option provides 1000 mW maximum
input power.
Page 21
control feature.
Page 14
MAP Polarization Controller
MAP Optical Power Meter Module
An efficient, precise polarization controller that can create any state of
Features high accuracy, high linearity, and extremely low polarization
polarization. May also be used as part of a polarization state analyzer.
dependent loss (PDL). Incorporates a standard analog output. Model
Page 17
with 10 mm detector adapter may be used with up to 72 channel
multimode ribbon fibers.
Page 23
3
MAP Broadband Source
MAP LED Source
Offers an amplified spontaneous emission (ASE) output that features
Provides a high-power light emitting diode (LED)-based light source
flattened high power density across the C-band. The source provides
high spectral stability.
Page 27
MAP Tunable DBR Laser
New-generation tunable laser ideal for DWDM testing where the
capability to change wavelength on demand over the C- and L-bands
with 25 GHz spacing is essential.
Page 29
with variable output power.
Page 33
MAP Large Channel Count Switch
A bidirectional switch, allows connections of a common port to up to
50 channels. Available in single- or dual-switch configurations. Exhibits
low insertion loss and high return loss.
Page 35
MAP Fabry-Perot Laser
MAP Small Channel Count Switch
Produces a stable light source at desired wavelengths. Offers optimal
A low-cost switch allowing for a number of configurations. The switch
stability and features such as built-in internal modulation capabilities,
and variable power control.
Page 31
4 Multiple Application Platform (MAP-200)
is bidirectional, transparent to signal format, and available in both
single-mode and multimode versions.
Page 38
MAP Utility
Adapters and Calibrated Jumpers
Simplifies the mechanical integration of passive optical components
For use with the Viavi power meters from the MAP, c-Series, SWS,
for test sets. Highly configurable and contains passive optical devices
OCETS, and legacy product lines.
such as splitters and taps. Supports angle or flat polish connectors as
well as single-mode and multimode fibers.
Page 43
Page 40
Application Reference Table
The MAP-200 system of products addresses standard testing requirements in addition to evolving testing challenges. See the table below for a
sampling of tests and the appropriate measurement equipment.
40 GE
10 G
100 GE Network
Test Bed
Broadband
Source
Couplers and
Splitters

Switches


Insertion Intrinsic
Loss
Jitter


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

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


Tunable DBR
Laser

Variable
Backreflector



Noise
Figure
Optical
Gain


OSNR
Polarization Polarization Return
Dependent Dependent
Loss
Gain
Loss
















Tunable Filter
Variable Optical
Attenuator
Eye
Mask

Polarization
Controller
Power Meter
Extinction
Ratio

EDFA
Fabry-Perot
Laser
Bit
Error
Rate


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5
Multiple Application Platform
The Viavi Multiple Application Platform (MAP-200) is an optical
MAP-200
development and manufacturing of optical transmission network
test and measurement platform optimized for cost-effective
elements. Today’s rapidly changing optical market requires
investment in productivity-enhancing technologies and tools, making
the MAP-200 scalable test platform the right tool needed in even the
most stringent environments.
Based on the previous-generation Multiple Application Platform
(MAP), the MAP-200 builds on the differentiation of offering the
broadest portfolio of modules in the densest and most configurable
platform. The MAP-200 is optimized for test applications in lab and
manufacturing environments ranging from insertion loss testing to
dispersion penalty testing (see Table 1).
Table 1. List of MAP-200 applications by technology
MAP-230B (top) and MAP-280 (bottom) mainframes
Key Features
yy Available in three mainframe configurations
yy GPIB- and LXI-compliant (Ethernet)
yy Optional 10.4-inch touch screen display module with integrated
keypad and scroll wheel
yy DVI port for external display
Passives
– Insertion Loss
Lasers and Amplifiers
– Gain Flatness
– Polarization
Dependent Loss
– Return Loss
– Output Power
– Transient Response
– Spectral Width
– Side Mode
Suppression Ratio
– Wavelength
– NF and OSNR
yy USB device ports for external keyboard and mouse
yy Hot-swappable module (module can be inserted or removed
without powering down)
yy Field replaceable controller/power supply module
yy Compatible with current MAP modules
Applications
Optical Transport
– Stress Receiver
Compliance
– Jitter Testing
– Sensitivity
– Dispersion Penalty
– SMSR
– Receiver Overload
– Eye Mask/Extinction
Ratio
– OSNR Sensitivity
Multiple MAP-200 Mainframe Configurations
The MAP-200 mainframes are offered in three configurations for
optimal adaptability within test sets: a three-slot configuration and a
19-inch rack, eight-slot configuration with either front- or rear-facing
yy Enables transceiver and transponder testing
orientation for optimal fiber routing. All three configurations are
yy Permits comprehensive passive and active component, laser, and
amplifier testing
3 RU high. The MAP-200 mainframes come standard with hardware
yy Facilitates 10 G and 40 G system and subsystem testing
the corners for optimal stability and vibration isolation. Investment
Compliance
allows insertion of previously field-deployed MAP modules in the
yy Optical source modules, when installed in the MAP Mainframe,
meet the requirements of standard IEC 60825-1(2002) and comply
with CFR 1040.10 except deviations per Laser Notice No. 50, July
2001 Key Feature Number 4
yy CSA/UL/IEC 61010-1
yy LXI Class C compliant
required for bench-top use including rubber-accented feet located at
protection is maximized by use of a simple transition kit, which
MAP-200 mainframe. Further-more, the MAP-200 provides additional
cost savings by letting users share the modules within a mainframe.
High-Performance MAP-200 Modules
The MAP-200 portfolio of modules include 16 types of highperformance modules including signal conditioning and switching,
sources and amplification, and power meters.
6 Multiple Application Platform (MAP-200)
MAP Power Meters provide high absolute power measurement
accuracy over a broad power and wavelength range. They support a
broad combination of fiber types and connectivity option optimized
for datacom and telecom applications. High speed data logging
capability allows for making transient measurements.
MAP Amplifiers are designed to meet the broadest optical signal
amplification applications. They are available at various saturated
output power, gain flattened or non-gain flattened, C-band, L-band,
and with low noise figure.
Figure 1. Keypad/display module
MAP Attenuators provide the highest performance optical power
control solution. The attenuators offer the lowest insertion loss,
highest input power capability, low polarization dependent loss (PDL),
high dynamic range, and ultra-flat attenuation over wavelength.
MAP Tunable Filters provide the lowest loss and narrowest
bandwidth filter with the highest input power capability in
When in use with the MAP-230B mainframe, shown in Figure 2b, the
MAP-200BKD module can be mounted to the top face of it. Pop-out
feet located on the mainframe lets users position the combined unit in
a front-facing manner to ensure optimal viewing and interaction with
the unit.
the industry.
MAP Switches are the most configurable optical signal routing
solutions in their class. MAP Switches are available in configurations
including low channel count matrix (2x2) and single input to multiple
outputs ranging from 2 to 50. In the 1x2 and 2x2 format, the modules
are available with up to eight switches per single slot module.
MAP Sources are ideal sources for applications requiring a stable
stimulus for parametric measurements. The sources are available at
key telecom wavelengths, with broad or narrow spectral bandwidth,
or with tunable spectrum.
Other functions available in the MAP-200 include a variable
backreflector, polari-zation controller, and utility modules.
Figure 2a
Elaborate Local Interface and Friendly Graphical User Interface
To view the graphical user interface (GUI) and for local control,
the MAP-200 mainframes are compatible with standard universal
serial bus (USB) keyboards, USB mice, and digital video interface
(DVI) monitors. For added convenience and flexibility, Viavi offers
an optional purpose-built keypad/display module (MAP-200BKD),
shown in Figure 1, that provides full local control capabilities. The
MAP-200BKD features a scroll wheel, seven soft keys, five navigation
buttons, plus seven pre-assigned buttons to navigate the GUI. Touch
Figure 2b
capability and user-friendly controls come standard for operation
with the touch of a finger or with the supplied stylus. Located at the
back of the MAP-200BKD module is an industry-standard mounting
hole compatible with commercially available display mounts or the
purpose-built MAP-200 Keypad Display 19-inch rack-mount kit
(MAP-200B09). Alternatively, the GUI can be accessed in a
Figures 2a and 2b. Suggested MAP-230B and MAP-200BKD implementation.
Figure 2a shows the MAP-200BKD mounted on the MAP-230B, an optimal
configuration for applications requiring high interactivity with the GUI.
Figure 2b shows the MAP-200BKD next to the MAP-280, a configuration that
is optimal for applications requiring high interactivity with the device under
test (DUT) and the MAP-200 modules, as well as monitoring via the GUI.
PC environment via a virtual network connection (VNC) client.
7
Extensive Input/Output Interfaces
Standard Compliant Automation Drivers
The MAP-200 is a USB-, General Purpose Interface Bus- (GPIB-), and
MAP-200 is supplied with Interchangeable Virtual Instrument (IVI)
Ethernet-enabled device that supports the latest test equipment
drivers, which are intuitive and optimized for ease of use with
interface standard, local area network (LAN) extension interface for
popular Application Development Environments such as LabVIEW,
instrumentation (LXI). LXI is the Ethernet-based successor to GPIB. The
Visual C++, Visual Basic, and LabWindows™. These drivers provide
LXI standard defines devices using open-standard for system inter-
full control of the modules and provide drop-in instrument
device communication.
programming capabilities, allowing test programmers to focus on
test-level functions and sequences rather than the details required to
All mainframe configurations include:
communicate with the specific modules in the MAP system. The IVI
yy GPIB, Ethernet, and USB device ports for remote communication
drivers allow for simulation mode that lets Automation Developers
yy 4 USB host ports for installing peripheral devices, including USB drives, capture system configurations so they can perform most of their
a mouse, and a keyboard
development off line, freeing hardware for other purposes. These
features make test automation development and debugging fast
yy LXI-compliant Trigger Bus connections
and easy.
yy Ethernet reset button
yy Laser interlock key in the front and remote interlock connector in the rear
yy LXI-compliant light emitting diodes (LEDs) on the front panel
yy DVI connector for external monitor
Automation Remote User 1
(Optional)
Automation Remote User 2
(Optional)
Automation Remote User 3
(Optional)
Equipment
Server
Network
LAN Connection
MAP-200 SERIES
MAP-200 SERIES
MAP-200 SERIES
MAP-280
MAP-280
Optical
Connection
Optical
Connection
MAP-200 SERIES
Automation Local User
(Optional)
Figure 3. MAP implementation within a shared resource environment
8 Multiple Application Platform (MAP-200)
Mainframe Specifications
Parameter
MAP-230B
Capacity
3 modules
Controller
CPU
Operating System
Internal Storage
­–
Interfaces
Remote interface
USB device compability
Display External
–
Ports
USB host ports
USB device ports
LAN
GPIB
DVI video
LXI triggers
–
Automation
Driver type
Driver compatibility
Accessibility
–
Electrical and Safety
Power1
–
Power consumption
Local interlock
Remote interlock Mechanical and Environment2
Rack-mount kit
Dimensions (W x H x D)3
Weight
Operating temperature
Storage temperature
Humidity
Optional
29.2 x 14.9 x 42.0 cm
(11.5 x 5.9 x 16.6 in)
5.9 kg (13 lb)
MAP-280
MAP-280R
8 modules
8 modules
–
Power PC architecture
Linux
200 MB user flash storage
–
USB, GPIB, Ethernet 10/100/1000Base-T
Mouse, keyboard, memory stick
MAP-200KD (optional) or standard DVI monitor
–
2 rear and 2 front
1 front
1 rear
1 rear
1 rear
25-pin Micro-D connectors
–
IVI-compliant
LabVIEW, LabWindows, Visual C++, Visual Basic
Multi-user sharing support
–
100 to 125V AC/200 to 240V AC, 50/60 Hz,
Auto-switching (field-replaceable as part of the
power supply controller module)
200 VA
Key located in front
Terminals located in rear
Included
49.6 x 14.9 x 42.0 cm
(19.6 x 5.9 x 16.6 in)
6.8 kg (15 lb)
0 to 50°C
–30 to 60°C
15–80% RH, 0 to 40°C non-condensing
Included
49.6 x 14.9 x 42.0 cm
(19.6 x 5.9 x 16.6 in)
6.8 kg (15 lb)
1. The MAP-200 system has been tested and certified to an Altitude of 2,000 metres
2. Mains supply voltage fluctuation shall not exceed 10% of nominal supply voltage
3. Dimensions include bench-top mounting hardware
MAP-200BKD Display Specifications
Parameter
Specification
Display dimensions (H x W)
10.4-inch color screen
Resolution
800 x 600 resolution
Power
Supplied from mainframe via MAP-200A01 Keypad/Display Cable Harness Kit
Weight
1.8 kg (4 lb)
9
Ordering Information
Description
Product Code
Mainframes (Required)
MAP-200 8-slot mainframe
MAP-280
MAP-200 8-slot mainframe factory reversed configuration
MAP-280R
MAP-200 3-slot mainframe
MAP-230B
Power Cords (Required)
Australia/China power cord
CORD-AU
European power cord
CORD-EU
Japan power cord
CORD-JP
United Kingdom power cord
CORD-UK
United States power cord
CORD-US
Accessories (Optional)
MAP-200 stand-alone keypad/display module
MAP-200BKD
MAP-200BKD keypad/display cable harness kit
MAP-200A01
MAP-200 8-slot mainframe 19-inch rack-mount kit
MAP-200A03
MAP-200 adaptor kit for single width MAP modules (requires one kit per device)
MAP-200A013
MAP-200 adaptor kit for double width MAP modules (requires one kit per device)
MAP-200A013D
MAP-200BKD keypad/display module rack-mount kit
MAP-200B09
MAP-200 3-slot mainframe 19-inch rack-mount kit
MAP-200A10
Replacement/Spare Parts (Optional)
MAP-200 controller for MAP-280 and MAP-230B
MAP-200A02
MAP-200 controller for MAP-280R
MAP-200A02R
MAP-200 safety interlock key
MAP-200A04
MAP-200 blanking plates (kit of 3)
MAP-200A06
MAP-200 stylus
MAP-200A07
MAP-200 3-slot mainframe flip-up feet
MAP-200A08
MAP-200 detachable side panels for bench-top use
MAP-200A11
MAP-200 handles for detachable side panels
MAP-200A12
Visual Basic is a registered trademark of Microsoft Corporation.
LabVIEW and LabWindows are registered trademarks of National Instruments Corporation.
UL is a registered trademark of Underwriters Laboratories Inc.
10 Multiple Application Platform (MAP-200)
MAP Erbium-Doped Fiber Amplifier
(mEDFA-A1)
Safety Information
yy • The MAP EDFA, when installed in a
yy MAP chassis, complies to CE,
yy CSA/UL/IEC61010-1, LXI Class C
yy requirements, meets the requirements
yy of Class 3B in standard IEC
yy 60825-1 (2002), and complies with
yy 21 CFR 1040.1 except deviations per
yy Laser Notice No. 50, July 2001.
Key Features
yy Pre-amp, booster and in-line configurations
yy High output power and gain maximize operating range
The Multiple Application Platform (MAP) Erbium-Doped Fiber
Amplifier (mEDFA-A1) is optimized for the industry-leading MAP-200
platform from Viavi. Based on the previous-generation MAP, the
yy Low noise figure minimizes optical impairment
MAP-200 is the first photonic layer lab and manufacturing platform
yy Monitoring and alarms available
that is LAN Extensions for Instrumention (LXI)-compliant by
yy Can be automated when used with MAP-200 LXI-compliant
interfaces and IVI drivers
and interchangeable virtual instrument (IVI) drivers. The MAP-200
Applications
yy In-line, pre-amp and booster amplifier emulation
conforming to the required physical attributes, Ethernet connectivity,
platform is optimized for density and maximum configurability to
meet specific application requirements in the smallest possible foot
print. The MAP EDFA has a saturated output power ranging from 14
yy Dense wavelength division multiplexing (DWDM) transmission for
multi-channel applications
dBm to 21 dBm, features noise figures as low as 3.7 dB and has gain
yy SONET/SDH systems for single channel applications
operation in C- or L-band.
flatness better than 2.0 dB. All MAP EDFA models are available for
yy Optical signal-to-noise ratio (OSNR) experiments
11
Specifications
Parameter
1550
1552
1552
1554
1558
1590
1592
1594
Amplifier type
Pre-amp
Booster
Booster
high power
In-line
Booster
DWDM
Pre-amp
Booster
In-line
Operating wavelength range
1528 to
1565 nm
1528 to
1565 nm
1528 to
1565 nm
1528 to
1565 nm
1528 to
1563 nm
1565 to
1610 nm
1565 to
1610 nm
1565 to
1610 nm
Input signal
Single
channel
Single
channel
Single
channel
Single
channel
Multichannel Single
(DWDM)
channel
Single
channel
Single
channel
Saturated output power
(minimum)1
>14 dBm
>17 dBm
>20 dBm
>17 dBm
>21 dBm
>15 dBm
>15 dBm
>20 dBm
Noise figure (maximum)2
<3.7 dB
<4.5 dB
<5.0 dB
<4.1 dB
<5.5 dB
<5.2 dB
<5.5 dB
<5.5 dB
Small signal gain
(minimum)3
>37 dB
>30 dB
>32 dB
>35 dB
>25 dB
>24 dB
>22 dB
>28 dB
Input/output monitors
No
Yes
Yes
No
Yes
No
Yes
Yes
Polarization dependent loss
(PDL) (maximum)
<0.2 dB
<0.2 dB
<0.2 dB
<0.2 dB
<0.25 dB
<0.3 dB
<0.3 dB
<0.3 dB
Polarization mode dispersion
(PMD) (maximum)
<0.5 ps
<0.4 ps
<0.4 ps
<0.5 ps
<0.65 ps
<0.6 ps
<0.6 ps
<0.6 ps
Input/output isolation
(typical)
N/A/32 dB
45/32 dB
45/32 dB
32/32 dB
32/32 dB
N/A/40 dB
40/40 dB
40/40 dB
Spectral gain flatness (maximum) (p-p)4
N/A
N/A
N/A
N/A
<2.0 dB
N/A
N/A
N/A
Operating temperature
Storage temperature
Humidity
Dimensions (W x H x D)
Weight
0 to 40°C
–30 to 60°C
Maximum 95% RH noncondensing from 0 to 45°C
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
1.3 kg (2.87 lb)
Note:
All specifications guaranteed at 1550 nm and at 23°C
1. Saturated Output Power measured:
at 1550 nm at Pin = –4 dBm
at 1550 nm at Pin = –4 dBm (mid-span) for models 1550, 1552, 1554, 1558
at 1590 nm at Pin = 0 dBm (mid-span) for models 1590, 1592, 1594
2. Noise figure measured:
at Pin = –30 dBm for model 1550
at Pin = –4 dBm for models 1552, 1558, 1592
at Pin = –20 dBm for models 1554, 1590, 1594
3. Small signal gain measured:
at Pin = –30 dBm for model 1550
at Pin = –20 dBm for model 1552, 1554, 1590, 1592, 1594
at Pin = –4 dBm for model 1558
4.Flatness optimized:
for Pin = –4 dBm for model 1558
Note:
1558 Input Power Monitor: Min Power displayed typical - 18 dBm and Max Power displayed typical +3 dBm
12 Multiple Application Platform (MAP-200)
Ordering Information
Description
Product Code
Base Options (Required, Select One)
14 dBm C-band, Single Channel, Pre-amp
MEDFA-A15500
17 dBm C-band, Single Channel, Booster
MEDFA-A15520
20 dBm C-band, Single Channel, Booster
MEDFA-A15522
17 dBm C-band, Single Channel, In-Line Booster
MEDFA-A15540
21 dBm C-band, DWDM, Booster
MEDFA-A15580
15 dBm L-band, Single Channel, Pre-amp
MEDFA-A15900
15 dBm L-band, Single Channel, Booster
MEDFA-A15920
20 dBm L-band, Single Channel, In-Line Booster
MEDFA-A15940
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type
MFA
13
MAP Variable Optical Attenuator
The Multiple Application Platform (MAP) Variable Optical Attenuator
(mVOA-A2)
platform. Based on the previous-generation Multiple Application
(mVOA-A2) is optimized for the industry-leading Viavi MAP-200
Platform (MAP), the MAP-200 is the first photonic layer lab and
manufacturing platform that is LAN Extensions for Instrumentation
(LXI)-compliant by conforming to the required physical attributes,
Ethernet connectivity, and interchangeable virtual instrument (IVI)
drivers. The MAP-200 platform is optimized for density and maximum
configurability to meet specific application requirements in the
smallest possible foot print.
The mVOA-A2 is a stepper motor and filter based attenuator that
takes advantage of the latest available technologies to provide the
highest performance optical power level control solution with the
lowest optical impairments.
yy Ultra low insertion loss to minimize loss budget utilization
yy High accuracy and high repeatability to reduce measurement uncertainty
Key Features
yy Ultra low insertion loss (<1.0 dB) and outstanding spectral
uniformity
yy Fast transition speed to reduce testing time
yy Flat spectral response to reduce wavelength dependent uncertainty in
multi-wavelength applications (CWDM, DWDM)
yy Fastest transition speed in its class (up to 25 dB/s)
yy Low backreflection to reduce instabilities due to reflected light
yy Configurable by user at time of order (fiber type, density, built-in
options, high power option)
yy Optional built-in wavelength calibrated power meter reduces the
yy Optional built-in power monitor provides comprehensive closedloop power control settings
uncertainty by reducing external connections
yy High input power capability for EDFA testing and multi-wavelength
applications
yy Optional higher power capability can withstand up to 2 W input
power for single-mode fiber (500 mW for MMF)
The MAP Variable Optical Attenuator is a hot-pluggable cassette
yy Can be automated when used with MAP-200
designed for use within the Multiple Application Platform (MAP).
yy LXI-compliant interfaces and IVI drivers
Applications
The MAP is a general purpose high density test and measurement
platform for lab or production environments. Up to 16 independently
controlled attenuators can be installed in a single MAP chassis.
yy Transmitter dispersion testing and eye mask testing
yy Receiver sensitivity testing
yy EDFA noise figure and gain flatness testing
yy Power meter calibration
yy Loss simulation
Safety Information
yy The MAP Variable Optical Attenuator, when installed in a MAP
chassis, complies to CE, CSA/UL/IEC61010-1, plus LXI Class C
requirements.
Insertion Loss vs Wavelength
1
0.9
0.8
0.7
0.6
Insertion Loss [dB] 0.5
0.4
0.3
0.2
0.1
0
1250
1350
1450
1550
1650
Figure 1. Example of insertion loss of the Wavelength
MAP Variable
Optical Attenuator
[nm]
with single-mode fiber
14 Multiple Application Platform (MAP-200)
Spectral Uniformity Relative to 0 dB Attenuation
0.1
0.08
0.06
0.04
0.02
Relative Attenuation (dB)
0
-0.02
-0.04
-0.06
10 dB
20 dB
30 dB
-0.08
-0.1
1250
1350
1450
Wavelength [nm]
1550
1650
Figure 2. Example of spectral uniformity relative to 0 dB attenuation
Specifications
Parameter
Single-Mode
Insertion loss at minimum attenuation
1, 2, 3
Multimode10
No Power Control
With Power Control
No Power Control
With Power Control
<1.0 dB
<1.7 dB
<1.5 dB
<2.2 dB
4, 5
Maximum input power (Standard power/High power
5
4
+23 dBm/+33 dBm
+23 dBm/+27 dBm
1260 to 1650 nm
750 to 1350 nm
70 dB
65 dB
option)13
Wavelength range
Attenuation range
1
Attenuation flatness8, 9
±0.04 dB from 0 to 30 dB
N/A
25 dB/s typical
20 dB/s typical
Attenuation setting resolution
0.001 dB
0.001 dB
Attenuation accuracy1, 3, 12, 14
±0.1 dB
±0.1 dB
±0.01 dB
±0.01 dB
Attenuation slew rate (nominal)
Attenuation repeatability2
3, 11, 12, 14
Closed loop output power range (In-line power monitor
option)
N/A
–49 to +11 dBm at
1310/1550 ±15 nm
N/A
–40 to +5 dBm at
850/1310 ±15 nm
Relative power meter uncertainty3, 5, 9
N/A
±0.03 dB
N/A
±0.03 dB
Power setting repeatability
N/A
±0.015 dB
N/A
±0.015 dB
Power setting resolution
N/A
0.001 dBm
N/A
0.001 dBm
Polarization dependent loss (from 0 to 25 dB)3, 6
<0.08 dB
<0.15 dB
N/A
N/A
5, 9
Return loss
7
>55 dB typical APC/45 dB typical PC
Shutter isolation
Warm up time
30 minutes
Calibration period
2 years
Operating temperature
0 to 50°C
Storage temperature
Operating humidty (relative, noncondensing)
Dimensions (W x H x D)
Weight
>30 dB typical (PC connector)
100 dB typical
–30 to 60°C
<90% at 23°C, <20% at 50°C
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
1.1 kg (2.43 lb) single/1.3 kg (2.87 lb) dual
1. At 1310 ±15 nm and 1550 ±15 nm for SM unit and at 850 ±15 nm and 1300 ±15 nm for
MM unit
8. From 1480 nm to 1640 nm relative to 0 dB attenuation
2. Including one mated pair of connectors
10.Multimode specifications are valid for category 4 CPR
3. At 23 ±5°C
11.Constant wavelength, constant temperature, constant state of polarization
4. Not including tap coupler loss, if installed. Add 0.7 dB for tap coupler option
12.Measured using low coherence laser source
5. Value shown is for 1550 nm. For 1300/1310 nm the value is typical
13.Damage at high optical power due to scratched or poorly cleaned connectors may
result. For high power applications, incident light must be applied from “IN” port to
“OUT” port. Viavi assumes no responsibility for these user conditions
6. At 1550 nm ±15 mm only
7. At 1550 nm ±15 nm for SMF, 1300 nm ±15 nm for MMF
9. For unpolarized light
14.From 0 to 45 dB attenuation
15
Ordering Information
Sample Configuration
The MAP Variable Optical Attenuators are defined by selecting the
The following configuration specifies a single attenuator, standard
required options from the product configurator in the table below.
power, no built-in options, 9/125 fiber type, and FC/PC connector type.
Select one option from each of the three categories (Base, Fiber Type,
and Connector Type Options).
Description
Product Code
Base Options (Required, Select One)
Single Attenuator, standard power, no built-in options
Single Attenuator, standard power, 10/90 splitter for
external power monitor
MVOA-A2SS1
Single Attenuator, standard power, with integrated
power monitor
MVOA-A2SSM
Single Attenuator, high power, no built-in options
MVOA-A2SH0
Single Attenuator, high power, 10/90 splitter
MVOA-A2SH1
Single Attenuator, high power, with integrated power
monitor
MVOA-A2SHM
Dual Attenuator, standard power, no built-in options
MVOA-A2DS0
Dual Attenuator, standard power, 10/90 splitter
MVOA-A2DS1
Dual Attenuator, standard power, with integrated
power monitor
MVOA-A2DSM
Dual Attenuator, high power, no built-in options
MVOA-A2DH0
Dual Attenuator, high power, 10/90 splitter
MVOA-A2DH1
Dual Attenuator, high power, with integrated power
monitor
MVOA-A2DHM
Description
Product Code
Fiber Type Options (Required, Select One)
9/125 fiber type
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Type Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type (M100 only)
MFA
SC/PC connector type
MSC
SC/APC connector type (M100 only)
MSU
16 Multiple Application Platform (MAP-200)
In
In
Out
MVOA-A2SS0
Attenuator
Attenuator
Attenuator
In
Without Options
Power
Meter
Out
MON
Out
Tap
Tap
With Tap Option
With In-line Power Monitor Option
MVOA-A2SS0 with options M100 and MFP
UL is a registered trademark of Underwriters Laboratories Inc.
MAP Polarization Controller
The Multiple Application Platform (MAP) Polarization Controller
(mPCS-A1)
platform. Based on the previous-generation Multiple Application
(mPCS-A1) is optimized for the industry-leading Viavi MAP-200
Platform (MAP), the MAP-200 is the first photonic layer lab and
manufacturing platform that is LAN Extensions for Instrumentation
(LXI)-compliant by conforming to the required physical attributes,
Ethernet connectivity, and interchangeable virtual instrument (IVI)
drivers. The MAP-200 platform is optimized for density and maximum
configurability to meet specific application requirements in the
smallest possible foot print.
The mPCS-A1 provides an efficient and precise way of creating any
state of polarization. It can also be used as part of a polarization state
analyzer. The mPCS-A1 is comprised of three rotating elements: a high
extinction ratio polarizer, a quarter-wave plate and a half-wave plate.
The controller configuration can be offered with a single-mode (SM)
or a polarization maintaining fiber (PMF) input.
The polarization controllers can be combined with other instruments
Key Features
to complete measurement test systems such as erbium-doped fiber
yy Complete polarization control
amplifier (EDFA) or passive component test sets.
yy Designed to meet IEEE Std. 802.3ae™ 10 GbE testing requirements
yy Designed to perform fast polarization dependent loss (PDL)
measurements (4-state Mueller method)
yy Compact single width cassette
yy Very high angular accuracy and absolute fast axis alignment
accuracy
yy Can be automated when used with MAP-200
yy LXI-compliant interfaces and IVI drivers
Applications
yy Passive component PDL and polarization mode dispersion (PMD)
measurements
yy EDFA noise and polarization dependent gain (PDG) measurements
yy 10 GbE transceiver worst-case relative intensity noise and
dispersion penalty measurements
yy Optical signal to noise ratio (OSNR) and extinction ratio (ER)
measurements
Safety Information
yy The MAP Polarization Controller, when installed in a MAP chassis,
complies to CE, CSA/UL/ IEC61010-1, plus LXI Class C requirements.
17
Specifications
Parameter
1310 nm
1550 nm
Wavelength range
1260 to 1360 nm
1420 to 1630 nm
Insertion loss (IL)1, 3
<1.5 dB
<1.5 dB
IL variation with wavelength1, 3
±0.1 dB
±0.1 dB
±0.05 dB
±0.05 dB
IL variation with rotation
1, 3, 4
Return loss (RL)
>45 dB
>45 dB
Extinction ratio2
>40 dB
Fast axis alignment accuracy
<± 0.5°
Angular accuracy
±0.1°
Rotational resolution
0.075°
Maximum rotational speed per element
900°/s
Maximum optical input power
100 mW
Calibration
2 years
Operating temperature
10 to 40°C
Storage temperature
–30 to 60°C
Humidity
Maximum 95% RH from 10 to 40°C non-condensing
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
1.6 kg (3.5 lb)
1. From 1520 to 1630 nm for the 1550 nm version
2. Measured with a >45 dB polarized narrow spectral line source
3. At 23°C 5°C
4. IL variation using an incoherent (broadband) source with both waveplates rotating at differing rates
Ordering Information
Description
Product Code
Base Options (Required, Select One)
Polarization controller, 1260 to 1360 nm
MPCS-A1300
Polarization controller, 1420 to 1630 nm
MPCS-A1500
Fiber Type Options (Required, Select One)
9/125 fiber type
M100
PMF fiber type
M103
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type
MFA
SC/PC connector type
MSC
SC/APC connector type
MSU
UL is a registered trademark of Underwriters Laboratories Inc.
IEEE Std.802.3ae is a registered trademark of the Institute of Electrical and Electronics
Engineers
18 Multiple Application Platform (MAP-200)
MAP Variable Backreflector
The Multiple Application Platform (MAP) Variable Backreflector
(mVBR-A1)
platform. Based on the previous-genertion MAP, the MAP-200 is
(mVBR-A1) is optimized for the industry-leading Viavi MAP-200
the first photonic layer lab and manufacturing platform that is
LAN Extensions for Instrumentation (LXI)-compliant by conforming
to the required physical attributes, Ethernet connectivity, and
interchangeable virtual instrument (IVI) drivers. The MAP-200 platform
is optimized by density and maximum configurability to meet specific
application requirements in the smallest possible foot print. The
MAP Variable Backreflector cassette provides precise levels of return
loss (RL) to transmitters, enabling system sensitivity measurement or
system degradation as a function of back-reflection measurement.
When used with a transmitter/receiver pair and characterization
equipment, the MAP backreflector can be used to establish the
magnitude of reflections that significantly degrade transmission
system performance, and to characterize the problems they cause.
The MAP backreflector uses the Viavi linear attenuator prism and high
Key Features
yy Operation at 850/1310 or 1310/1550 nm
yy Single-mode or multimode fiber
yy Can be automated when used with MAP-200 LXI-compliant
interfaces and IVI drivers
Applications
reflectivity mirror to precisely control the level of RL. The cassette is
available in single-mode (SM) or multimode (MM) fibers and with an
optional coupler for monitoring.
Attenuator
Input and
reflected output
Reflector
yy Transmitter/receiver development and testing
yy Reflection testing for connectors
yy Quality assurance acceptance testing
Attenuator
Input and
reflected output
Without Coupler
50%
tap
Reflector
Tap output
(no reflection)
With Coupler
Optical Configurations for the Variable Backreflector Cassette
yy Laser development and production
Safety Information
yy The MAP Variable Backreflector, when installed in a MAP chassis,
complies to CE, CSA/UL/ IEC61010-1, plus LXI Class C requirements.
19
Specifications
Parameter
Single-Mode Fiber (SMF)
without Coupler
Single-Mode Fiber (SMF)
with 50/50 Coupler
Multimode Fiber (MMF)
without Coupler
Multimode Fiber (MMF)
with 50/50 Coupler
Wavelength range
1260 to 1650 nm
1260 to 1650 nm
750 to 1350 nm
750 to 1350 nm
Maximum backreflection
level
>–5.0 dB
>–9.5 dB
>–5.0 dB
>–9.5 dB
Minimum backreflection
level (APC/PC)
<–60/<–45 dB
<–60/<–45 dB
–30/<–30 dB
–30/<–30 dB
Insertion loss (IL)(IN to OUT)
N/A
<5.0 dB
N/A
<6.0 dB
Relative backreflection
setting accuracy 1, 3, 4
±0.2
±0.2
±0.4
±0.4
Backreflection setting
resolution
0.01
0.01
0.01
0.01
Fiber type
9/125 µm
9/125 µm
50/125 or 62.5/125 µm
50/125 or 62.5/125 µm
Polarization dependent loss
(PDL)1
<1.0 dB
<1.0 dB
N/A
N/A
1, 2, 3
Maximum optical input
power
200 mW
Calibration period
2 years
Warm-up time
30 minutes
Operating temperature
0 to 50°C
Storage temperature
–30 to 60°C
Humidity
<90% at 23°C, <20% at 50°C (relative non-condensing)
Dimensions (W x H x D)
Weight
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
1.1 kg (2.43 lb) single backreflector/1.3 kg (2.87 lb) dual backreflector
1. At 1310 ±15 and 1550 ±15 nm for SM units and at 850 ±15 nm and 1310 ±15 nm for MM units
2. Including one mated pair of connectors
3. At 23 ±5°C
4. From maximum backreflection to –40 dB for SM units and from maximum backreflection to –25 dB for MM units
Ordering Information
Description
Product Code
Base Options (Required, Select One)
Single Backreflector, no built-in option
MVBR-A1S0
Single Backreflector with built-in 50/50 splitter
MVBR-A1S1
Dual Backreflector, no built-in option
MVBR-A1D0
Dual Backreflector with built-in 50/50 splitter
MVBR-A1D1
Fiber Type Options (Required, Select One)
9/125 fiber type
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type (M100 only)
MFA
SC/PC connector type
MSC
SC/APC connector type (M100 only)
MSU
20 Multiple Application Platform (MAP-200)
MAP Tunable Filter
(mTBF-A1)
Two options are available:
yy the peak search option, used to find the absolute maximum transmission
power within the filter’s wavelength tuning range or a local maximum
transmission power within a user-defined wavelength range
yy 10% tap option for power monitoring
MAP Tunable Filter is ideal for applications where the user needs to
suppress amplified spontaneous emissions (ASE) or isolate specific
wavelengths. These applications include amplifier characterization,
bit error rate (BER) testing and optical signal-to-noise ratio
(OSNR) measurement.
Key Features
yy Available in three FWHM bandwidths (0.11, 0.25, 0.55 nm)
yy Low polarization dependent loss (PDL) (<0.3 dB)
yy Wide wavelength range (1520 to 1630 nm)
yy Can be automated when used with MAP-200 LXI-compliant
interfaces and IVI drivers
Applications
yy Spontaneous emission suppression
yy Amplifier characterization (Up to 1 W input power)
yy BER testing
yy Tunable laser-based testing
Safety Information
Figure 1. Model “G” filter shape shows the low IL and sharpness of the filter.
The filter makes use of a diffraction grating to separate the input light
along several discrete paths. A stepper-motor rotates the grating to
transmit the desired wavelength along the output fiber.
yy The MAP Tunable Filter, when installed in a MAP chassis, complies to CE, CSA/UL/IEC61010-1, plus LXI Class C requirements.
The Multiple Application Platform (MAP) Tunable Filter (mTBF-A1) is
optimized for the industry-leading Viavi MAP-200 platform. Based
on the previous-generation MAP, the MAP-200 is the first photonic
layer lab and manufacturing platform that is LAN Extensions for
Instrumentation (LXI)-compliant by conforming to the rquired
physical attributes. Ethernet connectivity, and interchangeable virtual
instrument (IVI) drivers. The MAP-200 platform is optimized for
density and maximum configurability to meet specific application
requirements in the smallest possible foot print. The MAP Tunable
Filter is a tunable bandpass filter that offers continuous wavelength
tuning from 1520 to 1630 nm. It is used for applications requiring low
insertion loss (IL), high rejection, narrow bandwidth and wavelength
tuning resolution of 0.005 nm. The standard model has a maximum
input power of 300 mW and the high power option provides a
maximum input power of 1000 mW.
Figure 2. mTBF GUI - detailed view
21
Specifications
Parameter
Wavelength range
Model C
Model G
Model K
1520 to 1630 nm
1520 to 1630 nm
1520 to 1630 nm
Gaussian
Gaussian
Gaussian
0.11 nm ±15%
0.25 nm ±15%
0.55 nm ±15%
0.40 ±0.05
0.31 ±0.05
0.31 ±0.05
<6.0 dB
<8.0 dB
<5.8 dB
<8.0 dB
<5.8 dB
<8.0 dB
300 mW or 1 W
300 mW or 1 W
300 mW or 1 W
Optical shape
–3 dB bandwidth1
3/20 dB ratio1
Insertion loss (IL)2
1520 to 1610 nm
1610 to 1630 nm
Input power3
Return loss (RL)
4
Wavelength resolution
>45 dB
0.005 nm
Polarization dependent loss (PDL)5, 1520 to 1630 nm
<0.3 dB
Tuning speed
>5 nm/s
Peak to average background noise
>45 dB
Accuracy
±0.2 nm
Peak search accuracy
Polarization mode dispersion (PMD)
<0.2 dB from output peak power
<0.3 ps
Group delay variation within a –3 dB bandwidth
<5 ps
Recommended calibration period
1 year
Operating temperature
Storage temperature
Dimensions (W x H x D)
Weight
10 to 35°C
–10 to 60°C
8.1 x 13.26 x 37.03 cm (3.19 x 5.22 x 14.58 in)
2.3 kg (5.07 lb)
1. Measured at 1550 nm
2. Add 1.2 dB for tap or peak search option
3. At 23°C ±5°C
4. At selected wavelength
5. Input power is within the range of –20 dBm to +20 dBm. Excludes PDL effect
Ordering Information
Description
Product Code
Base Options (Required, Select One)
Tunable Filter, C Model, 0.11 nm –3 dB Bandwidth, Standard Power (300 mW)
MTBF-A1CS0
Tunable Filter, G Model, 0.25 nm –3 dB Bandwidth, Standard Power (300 mW)
MTBF-A1GS0
Tunable Filter, K Model, 0.55 nm –3 dB Bandwidth, Standard Power (300 mW)
MTBF-A1KS0
Tunable Filter, C Model, 0.11 nm –3 dB Bandwidth, High Power (1 W)
MTBF-A1CH0
Tunable Filter, G Model, 0.25 nm –3 dB Bandwidth, High Power (1 W)
MTBF-A1GH0
Tunable Filter, K Model, 0.55 nm –3 dB Bandwidth, High Power (1 W)
MTBF-A1KH0
Built-in Options (Optional, Select One)
10% Output Tap option
M10SPLITTER
Power Monitor option
MPOWMON
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type
MFA
SC/PC connector type
MSC
SC/APC connector type
MSU
22 Multiple Application Platform (MAP-200)
MAP Optical Power Meter Module
(mOPM-B1)
The Multiple Application Platform (MAP-200) Optical Power Meter
Module (mOPM-B1) is a second-generation power meter that brings
a range of panel mount and remote head configurations to the Viavi
MAP-200 platform.
The MAP-200 is the first photonic layer lab and manufacturing
platform to be LAN Extensions for Instrumentation (LXI)-compliant,
bringing the full power of Ethernet connectivity and ease of use of
interchangeable virtual instrument (IVI) drivers to the optical test
environment. The MAP-200 platform’s industry-leading density and
configurability enables test engineers to meet specific application
requirements in the smallest possible footprint.
The MAP Optical Power Meter Module extends the optical power
measurement capability of the MAP-200 by offering three grades
of optical performance available in panel-mount or remote-head
configurations with 1, 2, or 4 inputs per module.
Key Features
yy Panel mount or remote head configuration
yy Single, dual, or quad channel configurations available
yy 250 kHz sampling rate for high-speed applications
yy 750 to 1700 nm operating wavelength range
yy Maximum input power up to 27 dBm available
yy Compatible with single-mode and multimode fiber
yy Ability to store up to 100,000 data points per channel
Applications
yy Amplifier characterization
Optical Performance
All three performance grades are based on indium gallium arsenide
(InGaAs) detectors and are suitable for applications using single-mode
(SM) or multimode (MM) fiber. They feature high accuracy, high
linearity, and extremely low polarization dependant loss (PDL). The
general purpose grade provides a measurement range of
–70 to +10 dBm. The high-performance detector features thermal
stabilization, which results in an extended wavelength range and a
power measurement range of –80 to +10 dBm. The high power grade
extends high-power measurement capability to +27 dBm.
yy Receiver and transmitter testing
yy Absolute power measurement
yy Optical switching time measurement
Compliance
yy The MAP Optical Power Meter, when installed in a MAP
chassis, complies with CE, CSA/UL/IEC61010-1, plus LXI Class C
requirements
23
Packaging Options
Super Application: OPMscope
The mOPM-B1 comes factory-configured with panel-mounted
The OPMscope is a Super Application designed for use with the
detectors or as an interface module with 1, 2, or 4 electrical
MOPM-B1 line of power meters on the MAP-200 platform. This
connections for remote heads. Remote heads facilitate positioning
software feature is an intuitive tool geared for designers and allows
the detector close to the device under test (DUT) and away from
graphical representation of optical signals, much like a digital sampling
other test equipment. The interface module is compatible with all
scope, but in the optical domain. This tool can be used to trigger on
performance grades of remote head and can accommodate a mix of
rising or falling edges, with the ability to see history using pre-trigger
performance grades. For example, an application requiring a general
data points. It allows users to pan and zoom to see details and
purpose optical power measurement (OPM) and a high-power OPM
monitor transients. It allows export of up to 100,000 captured data for
could be connected to the same Remote Head Base module, thereby
extended analysis from up to four optical heads simultaneously.
reducing the number of slots used in the MAP-200 chassis.
Enhanced Functionality
All mOPM-B1 configurations support array capture with memory
depth of 100,000 points per optical sensor. This feature combined
with an adjustable sampling frequency (up to 250 kHz) is ideal for
data logging applications or for capturing transient events.
Additional Applications
yy DUT settling time, cross talk, rise time and fall time
yy measures synchronization and additional stability
yy measures link recovery time
yy allows for performance comparison (for example, comparing sequential
switching to random switching)
Accessories
For ultimate flexibility, the detector heads offer Viavi AC1xx-series
interchangeable detector adapters that are available for most
connector types, as well as a fiber holder that permits bare fiber
measurements. The mOPM-B1 is supplied with a detector cover and
fixed connection
(FC)-detector adapter as standard accessories. As an option for remote
head users, a 1.8 m (6 foot) extension cable is available.
GUI
Figure 2. OPMscope main user interface
Figure 1. mOPM main user interface
24 Multiple Application Platform (MAP-200)
Specifications
Parameters
General Purpose
Premium Performance
High Power
Detector type
InGaAs
TEC InGaAs
Filtered InGaAs
Detector size
2 mm
3 mm
2 mm
Wavelength range
800 – 1650 nm
750 – 1700 nm
800 – 1630 nm
SMF and MMF with NA 0.27 (maximum core size 62.5 µm)
Fiber type
1
Dynamic range
+11 dBm to –70 dBm
+11 dBm to –80 dBm
+27 dBm to –45 dBm
Uncertainty at reference condition2
± 2.5% (800 – 1510 nm)
± 2.4% (1510 – 1600 nm)
± 2.7% (1600 – 1635 nm)
± 2.2% (800 – 1510 nm)
± 2.3% (1510 – 1600 nm)
± 2.5% (1600 – 1635 nm)
± 3.9% (800 – 960 nm)
± 3.6% (960 – 1300 nm)
± 3.7% (1300 – 1510 nm)
± 3.8% (1510 – 1600 nm)
± 4.0% (1600 – 1635 nm)
Total uncertainty3
± 3.2% ±5pW (800 – 900 nm)
± 5.2% ±5pW (900 – 960 nm)
± 3.1% ±5pW (960 – 1510 nm)
± 3.1% ±5pW (1510 – 1600 nm)
± 3.8% ±5pW (1600 – 1635 nm)
± 3.0% ±1pW (800 – 1510 nm)
± 3.1% ±1pW (1510 – 1600 nm)
± 3.4% ±1pW (1600 – 1635 nm)
± 4.6% ±100pW (800 – 900 nm)
± 7.9% ±100pW6 (900 – 960nm)
± 3.9% ±100pW (960 – 1300 nm)
± 4.4% ±100pW (1300 – 1510 nm)
± 4.5% ±100pW (1510 – 1600 nm)
± 5.2% ±100pW (1600 – 1635 nm)
Linearity (at 23 ± 5°C)
± 0.010 dB ±5 pW
± 0.010 dB ±1 pW
±0.010 dB ±100 pW
(for –45 dBm to +10 dBm)
± 0.03 dB
(for +10 dBm to +27 dBm)
Noise (peak to peak)4
2 pW
1 pW
50 pW
Relative uncertainty due to polarization5
<±0.015 dB
<±0.01 dB
<±0.07 dB
Maximum number of channels (Panel mount)
1, 2, or 4
1, 2, or 4
1, 2, or 4
Return loss
>55 dB typ
Sampling time
4 µs (250 kHz)
Averaging time
20 µs to 5 s
Buffer size
Supported connectors7
100000 points
FC, ST, SC, MT-RJ, LC, E2000, MU, MTP, Bare Fiber
Recalibration period
1 year
Warm-up time
30 minutes
Operating temperature
5 to 40°C
Humidity
15 – 80% relative humidity, noncondensing
Dimension (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
1.2 kg (2.65 lb)
1. For 62.5 µm core fiber, additional uncertainty of 1%(PC) or 2%(APC) must be added due to overfill of 2 mm detector
2. Fiber SMF-28, T=23±5°C, Spectral width of source< 6 nm, optical power on detector= –20 dBm
3. SMF 28, N/A of fiber ≤ 0.27, temperature, humidity and power range per table
4. 1 second averaging time, 300 consecutive measurements (300s), T=23 ± 5°C
5. All states of polarization, constant power, straight connector, T=23 ± 5°C. WL=1550 nm ±30 nm, MPMHP at WL=1310 nm.
6. For 900 – 960 nm only, uncertainty indicated is for 15 — 35°C
7. Note that MT connector size prevents the use of adjacent channels; therefore, a 4 channel cassette only allows 2 MT input at a time.
25
Ordering Information
Parameters
Remote Head
Cable Length
–
1.4 m (4.5 feet)
Dimension
–
13.8 cm x 5 cm x 5 cm (5.4in x 2in x 2in) excluding cable
Weight
–
0.6 kg (1.3 lb)
Description
Product Code
Panel-Mount Head Application
Base Module Options (Required: Panel-Mount Detector Types Cannot be Mixed and Matched)
Panel-Mount Head Module
–
MOPM-B1PMH
Panel-Mount Detector Options (Select Type and Specify Quantity)
2 mm InGaAs Panel-Mount Head General
Purpose
Qty 1, 2, or 4 per module
MPMGP
2 mm InGaAs Panel-Mount Head High Power
Qty 1, 2, or 4 per module
MPMHP
3 mm InGaAs Panel-Mount Head Premium
Performance
Qty 1, 2, or 4 per module
MPMPP
Remote Head Application
Base Module Options (Required: Select One)
Single-Channel Remote Head Module
–
MOPM-B1RH1
Dual-Channel Remote Head Module
–
MOPM-B1RH2
Quad-Channel Remote Head Module
–
MOPM-B1RH4
Remote Head Options (Select Type and Specify Quantity)
2 mm InGaAs Remote Head General Purpose
1 detector per head
MOPM-B1RHGP
2 mm InGaAs Remote Head High Power
1 detector per head
MOPM-B1RHHP
3 mm InGaAs Remote Head Premium Performance
1 detector per head
MOPM-B1RHPP
Optional Accessories1
Detector cap
AC100
FC adapter
AC101
Applications
Optical Scope Licensed Super Application for
MOPM-B1 Power Meters
–
MSUP-OPMSCOPE
Sample Configuration for Panel Mount
Type of Detector
Single Channel
Dual Channel
Quad Channel
General Purpose
MOPM-B1PMH
MPMGPx1
MOPM-B1PMH
MPMGPx2
MOPM-B1PMH
MPMGPx4
High Power
MOPM-B1PMH
MPMHPx1
MOPM-B1PMH
MPMHPx2
MOPM-B1PMH
MPMHPx4
Premium Performance
MOPM-B1PMH
MPMPPx1
MOPM-B1PMH
MPMPPx2
MOPM-B1PMH
MPMPPx4
1. All general purpose and premium performance MOPM are supplied with one AC100 and one AC101 per detector. All high power MOPM are supplied with one AC100 and one high
power FC adapter per detector.
26 Multiple Application Platform (MAP-200)
MAP Broadband Source
(mBBS-A1)
The Multiple Application Platform (MAP) Broadband Source (mBBS-A1)
is optimized for the industry-leading Viavi MAP-200 platform. Based
on the previous-generation Multiple Application Platform (MAP), the
MAP-200 is the first photonic layer lab and manufacturing platform
that is LAN Extensions for Instrumentation (LXI)-compliant by
conforming to the required physical attributes, Ethernet connectivity,
and interchangeable virtual instrument (IVI) drivers. The MAP-200
platform is optimized for density and maximum configurability to meet
specific application requirements in the smallest possible foot print.
Utilizing the latest advances in erbium technology, the MAP BBS
offers an amplified spontaneous emission (ASE) output that features
flattened high power density across the C-band. The source provides
high spectral stability.
The addition of the BBS Cassette can be used for many applications
including OSNR (optical signal to noise ratio) experiments, calibration
of test equipment, and noise source for active or passive
component testing.
Key Features
The MAP BBS models provide specialized variants and optical
yy Flattened output power spectrum
performance not available in the Benchtop BBS.
yy High output power density
yy High spectral stability
yy Control and monitoring features
yy Can be automated when used with MAP-200
yy LXI-compliant interfaces and IVI drivers
Applications
yy Optical component spectral tests
yy Systems compliance tests
yy Optical measurement systems
yy Sensor and imaging experiments
Safety Information
yy The MAP Broadband Source, when installed in a MAP chassis,
complies to CE, CSA/UL/IEC61010-1, LXI Class C requirements,
meets the requirements of Class 3B in standard IEC 60825-1 (2002),
and complies with 21 CFR 1040.1 except deviations per Laser Notice
No. 50, July 2001.
Spectral Density Plot C-band 50 mW
27
Specifications
Parameter
C-Band 50 mW Output Power
C-Band 100 mW Output Power
1527 to 1568 nm
1525 to 1568 nm
50 mW
100 mW
1.8 dB
1.8 dB
Operating wavelength range
Total optical power (minimum)
1
Spectral gain flatness (maximum)2
Total output power stability
0.02 dB
Output isolation (minimum)
45 dB
Operating temperature
0 to 50°C
Storage temperature
–30 to 60°C
Humidity
Maximum 95% RH non-condensing from 0 to 45°C
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
2.3 kg (5.07 lb)
1. Measured at 1550 nm at 23°C after one hour warm-up
2. Flatness range 1529 to 1565 nm for C-band model
Ordering Information
Description
Product Code
If the configurations available do not meet your
performance requirements, please contact your
Base Options (Required, Select One)
C-Band Broadband Source, 50 mW output power
MBBS-A1C050
C-Band Broadband Source, 100 mW output power
MBBS-A1C100
global sales and customer service team to discuss
the potential for specialized solutions.
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type
MFA
28 Multiple Application Platform (MAP-200)
UL is a registered trademark of Underwriters Laboratories, inc.
MAP Tunable DBR Laser
(mTLG-A1)
The Multiple Application Platform (MAP-200) Tunable Distributed
Bragg Reflector (DBR) laser (mTLG-A1) is a new-generation tunable
laser that is ideal for DWDM testing where the capability to change
wavelength on demand over the C- and L-bands with 25 GHz spacing
is essential.
The MAP-200 is the first photonic layer lab and manufacturing
platform to be LAN Extensions for Instrumentation (LXI)-compliant,
bringing the full power of Ethernet connectivity and ease of use of
interchangeable virtual instrument (IVI) drivers to the optical test
environment. The MAP-200 platform’s industry-leading density and
configurability enables test engineers to meet specific application
requirements in the smallest possible footprint.
The new mTLG-A1 is based on a Sampled Grating Distributed
Bragg Reflector (SG-DBR) laser with an integral wavelength locker.
Wavelength and output power settings are controlled using the
MAP-200 local interface or automation interfaces. The integrated
wavelocker and automatic power control loop enable very
Key Features
stable operation.
yy Single, Dual, or Quad channel configurations available
yy C- or L-Band tunability
yy Wavelength tuning range of 38 nm
yy 25 GHz channel spacing
yy Narrow linewidth <5 MHz
yy C-band features:
–– Output power >12 dBm
–– SMSR 40 dB min
Applications
yy Optical amplifier testing
yy Tunable laser grids
yy DWDM transmission testing
yy Fiber characterization
yy Transmitter and receiver testing
Figure 1. mTLG screen capture
Compliance
yy The MAP Tunable DBR Laser, when installed in a MAP chassis,
complies with CE, CSA/UL/IEC61010-1, plus LXI Class C
requirements and meets the requirements of Class 1M in standard
IEC 60825-1 (A2:2001)
29
Specifications
Parameter
C-Band
L-Band
Wavelength
Tuning range
191.30 to 196.10 THz, 1528.77 to 1567.13 nm
186.35 to 190.95 THz,1570.01 to 1608.76 nm
±2 GHz (± 0.016 nm)
Accuracy1,2,3
Stability 15 minutes 1,2,3
±0.005 nm Typ
Stability 24 hours
±0.01nm Typ
Channel spacing
25 GHz
1,2,3
Power
7 to 13 dBm
Setting range4
7 to 11 dBm
Stability 15 minutes
±0.005 dB Typ
1,2,3
Stability 24 hours
±0.03dB Typ
Resolution
<0.1 dB Typ
1,2,3
Spectral Properties
≤5 MHz
Linewidth5
SMSR
RIN
40dB min, 45 dB Typ
38 dB min, 45 dB Typ
–140 dB/Hz Typ;–135 dB/Hz Max
–138.5 dB/Hz Typ; –133.5dB/Hz Max
Other
Fiber type
Polarization maintaining fiber; Slow axis aligned with connector key
Supported connectors
FC/APC
Warm-up time
1 hour
Operating temperature
10 to 40°C
Humidity
<80% RH, 10 to 40°C non-condensing
Dimension
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
1.3 kg (2.95 lb) maximum (varies with configuration)
1. At full power.
2. After 1-hour warm-up.
3. Constant temperature within 25 ±3°C.
4. Power at max setting: >12 dBm for C-band and >10 dBm for L-band.
5. Natural (instantaneous) linewidth of the laser; with self-homodyne measurements indicated linewidth is typically 50-100 MHz.
Ordering Information
Description
Product Code
C-band single laser
MTLG-A1C10
C-band dual density per module
MTLG-A1C20
C-band quad density per module
MTLG-A1C40
L-band single laser
MTLG-A1L10
L-band dual density per module
MTLG-A1L20
L-band quad density per module
MTLG-A1L40
C- and L-band dual density per module
MTLG-A1C1L1
30 Multiple Application Platform (MAP-200)
MAP Fabry-Perot Laser
(mFPL-A1)
The Multiple Application Platform (MAP) Fabry-Perot Laser Source
(mFPL-A1) is optimized for the industry-leading Viavi MAP-200
platform. Based on the previous-generation Multiple Application
Platform (MAP), the MAP-200 is the first photonic layer lab and
manufacturing platform that is LAN Extensions for Instrumentation
(LXI)-compliant by conforming to the required physical attributes,
Ethernet connectivity, and interchangeable virtual instrument (IVI)
drivers. The MAP-200 platform is optimized for density and maximum
configurability to meet specific application requirements in the
smallest possible foot print.
The mFPL-A1 consists of a Fabry-Perot laser diode combined with
a high performance laser driver circuitry for optimal wavelength
and power stability. It features internal modulation capabilities
and variable power control. Cassettes can be configured with two
independent sources for maximum instrumentation density.
Key Features
yy Dual independent sources available in a single cassette
yy Single-mode (SM)/Multimode (MM) output
yy Internal modulation
yy Can be automated when used with MAP-200 LXI-compliant
interfaces and IVI drivers
Applications
yy Insertion loss (IL) testing
yy Return loss (RL) testing
yy Polarization dependent loss (PDL) testing
yy Dense wavelength division multiplexing (DWDM) testing
Compliance
yy The MAP Fabry-Perot Laser Source, when installed in a MAP
chassis, complies to CE, CSA/UL/IEC61010-1, LXI Class C
requirements, meets the requirements of Class 3B in standard IEC
60825-1 (2002), and complies with 21 CFR 1040.1 except deviations
per Laser Notice No. 50, July 2001.
31
Single-Mode (SM) Specifications
Parameter
Peak wavelength
980 nm
1310 nm
1480 nm
1550 nm
1625 nm
1650 nm
980 ±20 nm
1310 ±20 nm
1480 ±20 nm
1550 ±20 nm
1625 ±20 nm
1650 ±20 nm
Spectral width (FWHM)
<5 nm
<5 nm
<5 nm
<6 nm
<7 nm
<7 nm
Total power1, 2
0 dBm
–3 dBm
–3 dBm
–3 dBm
–3 dBm
–3 dBm
FlexcorTM
SMF-28
SMF-28
SMF-28
SMF-28
SMF-28
Fiber type
Modulation
3
0.2 to 20 kHz
Stability (15 minutes)1, 2, 4
±0.005 dB
Connector type
FC/PC, FC/APC
Operating temperature
10 to 40°C
Storage temperature
–30 to 60°C
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
0.5 kg (1.1 lb)
Multimode (MM) Specifications
Parameter
850 nm
1310 nm
1550 nm
850 ±20 nm
1310 ±20 nm
1550 ±20 nm
Spectral width (FWHM)
<8 nm
<8 nm
<8 nm
Total power
–3 dBm
–6 dBm
–6 dBm
Peak wavelength
1, 2
Modulation3
0.2 to 20 kHz
Stability (15 minutes)1, 2, 4
±0.01 dB
Connector type
FC/PC, FC/APC
Operating temperature
10 to 40°C
Storage temperature
–30 to 60°C
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
0.5 kg (1.1 lb)
1. After 30 minute warm-up
2. Measured at constant temperature of 23 ±5°C
3. Modulation duty cycle is adjustable from 15% to 85%. Modulation depth is fixed at 100%
4. Measured at full power
Ordering Information
Description
Product Code
Base Options (Required, Select One)
Description
Product Code
Fiber Type Options (Required, Select One)
1
Fabry-Perot mono-wavelength laser source
MFPL-A1100
9/125 fiber type
M100
Fabry-Perot bi-wavelength laser source
MFPL-A1200
50/125 fiber type (850, 1310 and 1550 nm only)
M101
Laser Wavelength Options (Required, Select One or Two)
62.5/125 fiber type (850, 1310 and 1550 nm only)
M102
1650 nm wavelength
MWL1650A
Flexcore fiber (980 nm only)
M104
1625 nm wavelength
MWL1625A
Connector Options (Required, Select One)
1550 nm wavelength
MWL1550A
FC/PC connector type
MFP
1480 nm wavelength
MWL1480A
FC/APC connector type (M100 only)
MFA
1310 nm wavelength
MWL1310A
980 nm wavelength
MWL0980A
850 nm wavelength
MWL0850A
32 Multiple Application Platform (MAP-200)
1. SM and MM fiber type options cannot be combined in one module
UL is a registered trademark of Underwriters Laboratories Inc.
Flexcor is a registered trademark of Corning Inc.
MAP Light Emitting Diode Source
The Multiple Application Platform (MAP) Light Emitting Diode Source
(mLED-A1)
platform. Based on the previous-generation Multiple Application
(mLED-A1) is optimized for the industry-leading Viavi MAP-200
Platform (MAP), the MAP-200 is the first photonic layer lab and
manufacturing platform that is LAN Extensions for Instrumentation
(LXI)-compliant by conforming to the required physical attributes,
Ethernet connectivity, and interchangeable virtual instrument (IVI)
drivers. The MAP-200 platform is optimized for density and maximum
configurability to meet specific application requirements in the
smallest possible foot print.
The mLED-A1 is a high-power LED based light source with variable
output power. High output power and excellent wavelength stability,
combined with built in modulation circuitry, make this light source
suitable for wavelength division multiplexing (WDM) component
manufacturing and testing. Other applications of this device include
sensing, spectroscopy and amplified spontaneous emissions (ASEs)
loading for optical signal-to-noise ratio (OSNR) measurements.
Key Features
yy Dual independent sources available in a single cassette
yy Single-mode (SM)/multimode (MM) output
yy Internal modulation circuitry
yy Can be automated when used with MAP-200
yy LXI-compliant interfaces and IVI drivers
Applications
yy Optical component spectral tests
yy Systems compliance tests
yy Sensors and imaging
Safety Information
yy The MAP LED Source, when installed in a MAP chassis, complies
to CE, CSA/UL/IEC61010-1,LXI Class C requirements, meets the
requirements of Class 3B in standard IEC 60825-1(2002), and
complies with 21 CFR 1040.1 except deviations per Laser
Notice No. 50, July 2001.
33
Specifications
Single-Mode (SM)
1310 nm
Single-Mode (SM)
1550 nm
Multimode (MM)
850 nm
Multimode (MM)
1310 nm
Multimode (MM)
1550 nm
1310 ±20 nm
1550 ±20 nm
850 ±20 nm
1310 ±20 nm
1550 ±20 nm
3 dB width
>40 nm
>40 nm
—
—
—
Spectral ripple (RB = 0.1 nm)
0.35 dB
0.35 dB
—
—
—
Total power
0 dBm
0 dBm
–3 dBm
–3 dBm
–3 dBm
Parameter
Peak wavelength
1, 2
Modulation
0.2 to 20 kHz
Stability (15 minutes)1, 2, 3
±0.01 dB
Connector type
FC/PC, FC/APC
Operating temperature
10 to 40°C
Storage temperature
–30 to 60°C
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
0.5 kg (1.1 lb)
1. After 30 minute warm-up
2. Measured at constant temperature of 23 ±5°C
3. Measured at full power
Ordering Information
Description
Product Code
Base Options (Required, Select One)
If the configurations available do not meet your
performance requirements, please contact your
LED mono-wavelength laser source
MLED-A1100
global sales and customer service team to discuss the
LED bi-wavelength laser source
MLED-A1200
potential for specialized solutions.
Laser Wavelength Options (Required, Select One or Two)
1550 nm wavelength
MWL1550A
1310 nm wavelength
MWL1310A
850 nm wavelength
MWL0850A
Fiber Type Options (Required, Select One)1
9/125 fiber type (1310 and 1550 nm only)
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type (M100 only)
MFA
1. SM and MM fiber type options cannot be combined in one module
UL is a registered trademark of Underwriters Laboratories, inc.
34 Multiple Application Platform (MAP-200)
MAP Large Channel Count Switch
The Multiple Application Platform (MAP) Large Channel Count Switch
(mLCS-A1)
Based on the previous-generation MAP, the MAP-200 is the first
(mLCS-A1) is optimized for the industry-leading Viavi MAP-200 platform.
photonic layer lab and manufacturing platform that is LAN Extensions
for Instrumentation (LXI)-compliant by conforming to the required
physical attributes, Ethernet connectivity, and interchangeable virtual
instrument (IVI) drivers. The MAP-200 platform is optimized for density
and maximum configurability to meet specific application requirements
in the smallest possible foot print.
The MAP Large Channel Count Switch is based on Viavi expanded
beam and alignment technologies and exhibits low insertion loss (IL)
and high return loss (RL). It is available in single-switch configurations
from 1x4 up to 1x50, dual independent switch configurations
from 1x4 up to 1x25, and both single and dual independent switch
configurations from 2x4 to 2x16. An important element of an optical
test bed, optical switches increase throughput by enabling
time-saving automation, reduce uncertainty from repeated connector
mating, and maximize usage of expensive test equipment.
Key Features
yy Insertion loss (IL) <0.7 dB and return loss (RL) >57 dB
yy Low polarization dependent loss (PDL) 0.04 dB
yy Up to 1x50 switch configurations in a single width cassette
yy Single and dual 2xN switch configurations
Applications
yy Dense wavelength division multiplexing (DWDM) channel testing
yy Amplifier characterization
yy Bit error rate (BER) testing
yy Signal routing
Safety Information
yy The MAP Large Channel Count Switch, when installed in a MAP
chassis, complies to CE, CSA/UL/IEC61010-1, plus LXI
Class C requirements.
35
Specifications
Parameter
Wavelength range
Insertion loss (IL)1
(N = number of output channels)
N≤25
N>25, 2xN
Polarization dependent loss (PDL)1
N≤25
N>25, 2xN
Return loss (RL)1, 2
N≤25
N>25, 2xN
Single-Mode Fiber SMF 9/125
Typical/Maximum
Multimode Fiber MMF 50/125 and 62.5/125
Typical/Maximum
1270 to 1670 nm
850 to 1350 nm, 750 to 940 nm
0.5 dB/0.7 dB
0.8 dB/1.2 dB
0.4 dB/0.6 dB
0.7 dB/1.0 dB
0.02 dB/0.04 dB
0.04 dB/0.08 dB
N/A
N/A
62 dB/57 dB
55 dB/45 dB
25 dB/20 dB
20 dB/20 dB
IL Stability
N≤25
N>25, 2xN
±0.02 dB/±0.025 dB
±0.03 dB/±0.04 dB
Repeatability sequential switching
N≤25
N>25, 2xN
±0.005 dB/±0.01 dB
±0.01 dB/±0.03 dB
Repeatability random switching
N≤25
N>25, 2xN
±0.01 dB/±0.05 dB
±0.03 dB/±0.08 dB
Crosstalk
N≤25
N>25, 2xN
–80 dB/N/A
–80 dB/N/A
Switching time
(first channel / each additional channel)
25 ms/15 ms
Maximum input power (optical)
300 mW
Lifetime
>100 million cycles
Operating temperature
–5 to 55°C
Storage temperature
Dimensions (W x H x D)
Weight
–30 to 60°C
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
1.3 kg (2.87 lb) maximum (varies with configuration)
1. Excluding connectors. All optical measurements taken after temperature has been stabilized for one hour
2. RL is based on 1 m pigtail (equivalent to bulkhead version)
36 Multiple Application Platform (MAP-200)
Ordering Information
Description
Product Code
Base Options (Required, Select One)
Single 1x4 switch, bulkheads
MLCS-A1104B
Single 1x6 switch, bulkheads
MLCS-A1106B
Single 1x8 switch, bulkheads
MLCS-A1108B
Single 1x12 switch, pigtails
MLCS-A1112P
Single 1x16 switch, pigtails
MLCS-A1116P
Single 1x24 switch, pigtails
MLCS-A1124P
Single 1x32 switch, pigtails
MLCS-A1132P
Single 1x42 switch, pigtails
MLCS-A1142P
Single 1x50 switch, pigtails
MLCS-A1150P
Dual independent 1x4 switch, bulkheads
MLCS-A1204B
Dual independent 1x8 switch, pigtails
MLCS-A1208P
Dual independent 1x12 switch, pigtails
MLCS-A1212P
Dual independent 1x16 switch, pigtails
MLCS-A1216P
Dual independent 1x25 switch, pigtails
MLCS-A1225P
Single 2x4 E configuration switch, bulkheads
MLCS-A1104BD
Single 2x8 E configuration switch, bulkheads
MLCS-A1108BD
Single 2x16 E configuration switch, pigtails
MLCS-A1116PD
Dual 2x4 E configuration switch, pigtails
MLCS-A1204PD
Dual 2x8 E configuration switch, pigtails
MLCS-A1208PD
Dual 2x16 E configuration switch, pigtails
MLCS-A1216PD
If the configurations available do not meet your
performance requirements, please contact your
global sales and customer service team to discuss the
potential for specialized solutions.
Fiber Type Options (Required, Select One)
9/125 fiber type
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type (for M100 fiber type
option only)
MFA
SC/PC connector type
MSC
SC/APC connector type (for M100 fiber type
option only)
MSU
37
MAP Small Channel Count Switch
The Multiple Application Platform (MAP) Small Channel Count Switch
(mSCS-A1)
Based on the previous-generation MAP, the MAP-200 is the first
(mSCS-A1) is optimized for the industry-leading Viavi MAP-200 platform.
photonic layer lab and manufacturing platform that is LAN Extensions
for Instrumentation (LXI)-compliant by conforming to the required
physical attributes, Ethernet connectivity, and interchangeable virtual
instrument (IVI) drivers. The MAP-200 platform is optimized for density
and maximum configurability to meet specific application requirements
in the smallest possible foot print.
The mSCS-A1 is based on optical prism and mirror technology that
directs incident light into selected output channels. It is available in
1x2 and 2x2 configurations and supports multiple devices per MAP
cassette, single-mode or multimode fiber, and four connector types.
An important element of an optical test bed, optical switches increase
throughput by enabling time-saving automation, reducing uncertainty
from repeated connector mating, and maximizing usage of expensive
test equipment.
Key Features
yy Insertion loss (IL) <0.8 dB and return loss (RL) >55 dB
yy Low polarization dependent loss (PDL) 0.08 dB
yy Up to 8 switches per cassette
yy Can be automated when used with MAP-200 LXI-compliant
interfaces and IVI drivers
Applications
yy Dense wavelength division multiplexing (DWDM) channel testing
yy Amplifier characterization
yy Bit error rate (BER) testing
yy Signal routing
Safety Information
yy The MAP Small Channel Count Switch, installed in a MAP chassis,
complies to CE, CSA/UL/ IEC61010-1, plus LXI Class C requirements.
38 Multiple Application Platform (MAP-200)
Specifications
Parameter
Single-Mode Fiber (SM)
Multimode Fiber (MM)
Wavelength
1310 and 1550 nm
850 and 1310 nm
Insertion loss (IL)1
1x2
2x2
≤0.8 dB
≤1.0 dB
≤0.8 dB
≤1.1 dB
Return loss (RL)1
>55 dB
>20 dB
≤0.1 dB
N/A
Repeatability
Polarization dependent loss (PDL)1
±0.05 dB
±0.02 dB
Crosstalk
<–60 dB
<–35 dB
Optical input power
300 mW
Switching speed
Latching
10 ms
Yes
Lifetime
Operating temperature
Storage temperature
Humidity
Dimensions (W x H x D)
Weight
No
>10 million cycles
0 to 50°C
–30 to 60°C
90% relative, non-condensing
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
1.1 kg (2.43 lb) maximum (varies with configuration)
1. Unless otherwise specified, all specifications at start of life at 23°C ±3°C, 45% RH ±5% and optical input power of –25 to 0 dBm, excluding connectors
Ordering Information
Base Options (Required, Select One)
Description
Product Code
MAP SCS Cassette, one 1x2 switch, bulkheads
MSCS-B1112B
MAP SCS Cassette, two 1x2 switch, bulkheads
MSCS-B1212B
MAP SCS Cassette, four 1x2 switch, pigtails (for M100 fiber type option only)
MSCS-B1412P
MAP SCS Cassette, six 1x2 switch, pigtails (for M100 fiber type option only)
MSCS-B1612P
MAP SCS Cassette, eight 1x2 switch, pigtails (for M100 fiber type option only)
MSCS-B1812P
MAP SCS Cassette, one 2x2 switch, bulkheads
MSCS-A1122B
MAP SCS Cassette, two 2x2 switch, bulkheads
MSCS-A1222B
MAP SCS Cassette, four 2x2 switch, pigtails (for M100 fiber type option only)
MSCS-A1422P
MAP SCS Cassette, six 2x2 switch, pigtails (for M100 fiber type option only)
MSCS-A1622P
MAP SCS Cassette, eight 2x2 switch, pigtails (for M100 fiber type option only)
MSCS-A1822P
Fiber Type Options (Required, Select One)
9/125 fiber type
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Options (Required, Select One)
FC/PC connector type
MFP
FC/APC connector type (for M100 fiber type option only)
MFA
SC/PC connector type
MSC
SC/APC connector type (for M100 fiber type option only)
MSU
UL is a registered trademark of Underwriters Laboratories Inc.
Telcordia is a registered trademark of Telcordia Technologies, Inc.
39
MAP Utility
The Multiple Application Platform (MAP) Utility (mUTL-A1) is
(mUTL-A1)
on the previous-generation MAP, the MAP-200 is the first photonic
optimized for the industry-leading Viavi MAP-200 platform. Based
layer lab and manufacturing platform that is LAN Extensions for
Instrumentation (LXI)-compliant by conforming to the required
physical attributes, Ethernet connectivity, and interchangeable virtual
instrument (IVI) drivers. The MAP-200 platform is optimized for
density and maximum configurability to meet specific application
requirements in the smallest possible foot print. The MAP Utility is
designed to simplify the mechanical integration of passive optical
components for test sets. It supports angled or flat polish connectors
as well as single-mode (SM) and multimode (MM) fibers.
A blank MAP Utility cassette is available for mechanical mounting of
components such as isolators, circulators or fixed attenuators. The
cassettes are supplied with mounting hardware and 10 bulkhead
adapters for easy integration.
Key Features
yy Coupling, splitting and mux/demux functionality in a
robust package
yy Supports single-mode and multimode fibers
yy User-defined configurability
yy Ideal for individual lane testing on WDM signals for 100 GE and
40 GE applicationsApplications
Applications
yy Bit error rate (BER) test
yy Passive component test
yy Optical amplifier test
Safety Information
yy The MAP Utility, when installed in a MAP chassis, complies to
CE, CSA/UL/IEC61010-1, plus LXI Class C requirements.
40 Multiple Application Platform (MAP-200)
Single-Mode (SM) Specifications
SM 1x2, 1/99
Coupler (Fused)
Parameter
SM 1x2, 10/90
Coupler (Fused)
Fiber type
SM 1x2, 30/70
Coupler (Fused)
SM 1x2, 50/50
Coupler (Fused)
9/125 µm
Wavelength
1310/1550 nm
Insertion loss (IL)
<24.0/1.2 dB
<11.8/<1.2 dB
Optical power handling
<6.5/<2.4 dB
<4.1 dB
300 mW
Number of slots
1
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
1.0 kg (2.2 lb)
Multimode (MM) Specifications
Parameter
MM 10/90 Coupler (Micro-Optic)
Fiber type
MM 50/50 Coupler (Micro-Optic)
50/125 or 62.5/125 µm
Wavelength
850/1310 nm
IL
<11.8/<1.2 dB
Optical power handling
<4.1 dB
300 mW
Number of slots
1
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm (1.6 x 5.22 x 14.58 in)
Weight
<1.0 kg (2.2 lb)
mWDM-A1100GE Specifications
Parameter
Fiber type
9/125 µm
Wavelength
1295.6, 1300.1, 1304.6, 1309.1 nm
IL
<2.0 dB
Pass bandwidth
±1.50 nm
Ripple in passband
<0.5 dB
Return loss
>45 dB
Isolation adjacent channel
>15 dB
Isolation non-adjacent channel
>15 dB
Internal fiber length
1±0.1 m
Number of slots
1
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm
(1.6 x 5.22 x 14.58 in)
Weight
<1.0 kg (2.2 lb)
41
Ordering Information
mWDM-A1040GE Specifications
Parameter
Description
Product Code
Fiber type
9/125 µm
Base Options (Required)
Wavelength
1271, 1291, 1311, 1333 nm
MAP Utility, Blank
IL
<1.7 dB
Splitter Options (Optional, Select One, Two, or Three)
Pass bandwidth
±6.50 nm
MAP Utility, 1% Coupler, Bulkheads
MUTL-A101SB
Ripple in passband
<0.5 dB
MAP Utility, 10% Coupler, Bulkheads
MUTL-A110SB
Return loss
>45 dB
MAP Utility, 30% Coupler, Bulkheads
MUTL-A130SB
Isolation adjacent channel
>30 dB
MAP Utility, 50% Coupler, Bulkheads
MUTL-A150SB
Isolation non-adjacent channel
>50 dB
MAP Utility, Mux/Demux, Bulkheads
MWDM-A1100GE
Internal fiber length
1±0.1 m
MAP Utility, Mux/Demux, Bulkheads
MWDM-A1040GE
Number of slots
1
Fiber Type Options (Required if Splitter Option Selected,
Dimensions (W x H x D)
4.06 x 13.26 x 37.03 cm
(1.6 x 5.22 x 14.58 in)
Select One)
Weight
<1.0 kg (2.2 lb)
MUTL-A1000
9/125 fiber type
M100
50/125 fiber type
M101
62.5/125 fiber type
M102
Connector Options (Required)
42 Multiple Application Platform (MAP-200)
FC/PC connector type
MFP
FC/APC connector type (for M100 fiber type
option only)
MFA
SC/PC connector type
MSC
SC/APC connector type (for M100 fiber type
option only)
MSU
Adapters and Calibrated Jumpers
AC Adapters are for use with the Viavi power meters from the MAP,
Measurement Accessories
AC100 Series
Description
Product Code
Detector cap
AC100
FC adapter
AC101
ST adapter
AC102
if you need an adaptor not listed, contact the Technical Assistance
SC adapter
AC103
Center (TAC) support.
D4 adapter
AC104
Diamond HMS-0
AC108
MT (ribbon connector)
AC112
Ribbon fiber holder (requires AC120)
AC113
MU
AC114
E2000
AC115
FC, ST, SC universal adapter
AC116
MPO/MTP
AC117
LC
AC118
MT-RJ
AC119
Adapter holder (for AC121 and AC113)
AC120
Bare fiber holder (requires AC120)
AC121
c-Series, SWS, OCETS, and legacy product lines.
The AC900 series are new precision adapters with a locking feature
for better measurement precision that can be used with the
mOPM-B1, mORL-A1, and all c-Series. For compatibility questions, or
AC900 Series
Magnetic quick cap
AC900
FC adapter
AC901
SC adapter
AC903
MPO adapter
AC917
LC adapter
AC918
Power Cords (Required)
Australia/China power cord
CORD-AU
European power cord
CORD-EU
Japan power cord
CORD-JP
United Kingdom power cord
CORD-UK
United States power cord
CORD-US
43
Fiber Optic – Production and Lab
Test Support
About Technical Support
Viavi provides dedicated post-sales support with a team that is ready
to help you answer any questions or concerns about
Instrumentation products.
Standard Technical Support
(Included with every instrumentation product purchase) Our technical
support specialists are available live, via our global toll-free 800
number or via e-mail (8:00 AM to 5:00 PM ET, Monday through
Friday). If you experience a problem with the operation of a Viavi
product, our Technical Support Specialist is trained to work with
you, to carry out technical troubleshooting to resolve or confirm the
reported problem. If a problem is confirmed, the Technical Support
Specialist will take appropriate action to address your needs.
All service (repair, calibration, and upgrade) for our products is
provided via the Viavi Technical Support Team.
Replacement user manuals and Viavi software updates are also
included in our standard support package.
24-7 Emergency Technical Support
Viavi 24-7 Emergency Technical Support via our global toll-free
North America
800 number is also included in our standard level of support. If you
Toll Free: +844-468-4284
require emergency technical support, a Technical Support Specialist
will be paged, and will return your call promptly.
E-mail: [email protected]
For further information, including Extended Support Options and
Outside North America
Technical Training, please contact Viavi.
Go to the Viavi website
Contact Support
Select Country (or nearest country to yours) and then select FOPLT
from the second drop-down menu.
Regular support hours of operation are 8:00 AM to 5:00 PM ET,
Monday through Friday, excluding holidays.
Emergency Technical Support is available 24 hours a day, 7 days a
week if your equipment is not functioning and you have an urgent
requirement for assistance. Dial one of the telephone numbers and
follow the voice prompts to page a specialist.
Contact Us
+1 844 GO VIAVI
(+1 844 468 4284)
To reach the Viavi office nearest you,
visit viavisolutions.com/contacts.
© 2015 Viavi Solutions, Inc.
Product specifications and descriptions in this
document are subject to change without notice.
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