Multiple Application Platform (MAP-200) Platform Overview
Flexible, Dynamic Solution for Comprehensive Optical and Electro-Optical Testing The JDSU 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 JDSU.
Outstanding Support JDSU 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.
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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, eightslot 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.
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The MAP-200 Solution Selection Guide MAP EDFA Available in six configurations: preamplifier, booster, booster-high 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.
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 control feature.
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MAP Polarization Controller
MAP Variable Backreflector
An efficient, precise polarization controller that can create any state of polarization. May also be used as part of a polarization state analyzer.
Provides precise levels of return loss to transmitters allowing measurements of system sensitivity or system degradation as a function of backreflection. Available in single-mode or multimode and with an optional coupler for monitoring.
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MAP Tunable Filter Tunable bandpass filter offers continuous wavelength tuning from 1520 to 1630 nm. The standard model provides 300 mW maximum input power. The high power option provides 1000 mW maximum input power. Page 25
MAP Optical Power Meter Features high accuracy, high linearity, and extremely low polarization dependent loss (PDL). Incorporates a standard analog output. Model with 10 mm detector adapter may be used with up to 72 channel multimode ribbon fibers. Page 29
MAP Broadband Source Offers an amplified spontaneous emission (ASE) output that features flattened high power density across the C-band. The source provides high spectral stability. Page 34
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The MAP-200 Solution Selection Guide
MAP Tunable DBR Laser
MAP Fabry-Perot 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.
Produces a stable light source at desired wavelengths. Offers optimal stability and features such as built-in internal modulation capabilities, and variable power control.
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MAP LED Source
MAP Large Channel Count Switch
Provides a high-power light emitting diode (LED)-based light source with variable output power. Page 41
A bidirectional switch, allows connections of a common port to up to 50 channels. Available in single- or dualswitch configurations. Exhibits low insertion loss and high return loss. Page 43
MAP Small Channel Count Switch A low-cost switch allowing for a number of configurations. The switch is bidirectional, transparent to signal format, and available in both single-mode and multimode versions. Page 46
MAP Utility Simplifies the mechanical integration of passive optical components for test sets. Highly configurable and contains passive optical devices such as splitters and taps. Supports angle or flat polish connectors as well as single-mode and multimode fibers. Page 48
Adapters and Calibrated Jumpers For use with the JDSU power meters from the MAP, c-Series, SWS, OCETS, and legacy product lines. Page 51
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The MAP-200 Solution Selection Guide 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.
40GE 100GE
10 Gb/s NETWORK TEST BED
BIT ERROR RATE
EXTINCTION EYE RATIO MASK
INSERTION LOSS
INTRINSIC JITTER
NOISE FIGURE
OPTICAL OSNR POLARIZATION POLARIZATION RETURN GAIN DEPENDANT DEPENDENT LOSS GAIN LOSS
Broadband Source Couplers and Splitters EDFA Fabry-Perot Laser Polarization Controller Power Meter Switches Tunable Filter Tunable DBR Laser Variable Backreflector Variable Optical Attenuator
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Multiple Application Platform MAP-200 Key Features
• Available in three mainframe configurations • GPIB- and LXI-compliant (Ethernet) • Optional 10.4-inch touch screen display module with integrated keypad and scroll wheel • DVI port for external display • USB device ports for external keyboard and mouse • Hot-swappable module (module can be inserted or removed without powering down)
• Field replaceable controller/power supply module • Compatible with current MAP modules
MAP-230B (top) and MAP-280 (bottom) mainframes
Applications • Enables transceiver and transponder testing • Permits comprehensive passive and active component, laser, and amplifier testing • Facilitates 10 G and 40 G system and subsystem testing Compliance • 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 • CSA/UL/IEC 61010-1 • LXI Class C compliant
The JDSU Multiple Application Platform (MAP-200) is an optical test and measurement platform optimized for cost-effective development and manufacturing of optical transmission network 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). Passives
Lasers and Amplifiers
Optical Transport
– Insertion Loss – Polarization Dependent Loss – Return Loss
– – – – – – –
– – – – – – – –
Gain Flatness Output Power Transient Response Spectral Width Side Mode Suppression Ratio Wavelength NF and OSNR
Table 1 List of MAP-200 applications by technology
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Stress Receiver Compliance Jitter Testing Sensitivity Dispersion Penalty SMSR Receiver Overload Eye Mask/Extinction Ratio OSNR Sensitivity
Multiple Application Platform—MAP-200
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 come standard with hardware required for bench-top use including rubber-accented feet located at the corners for optimal stability and vibration isolation. Investment protection is maximized by use of a simple transition kit, which allows insertion of previously field-deployed MAP modules in the 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 high-performance modules including signal conditioning and switching, sources and amplification, and power meters. 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. 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 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, polarization controller, and utility modules.
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Multiple Application Platform—MAP-200
Figure 1 Keypad/display module
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, JDSU 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 capability and userfriendly 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 industrystandard 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 PC environment via a virtual network connection (VNC) client. 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.
Figure 2a
Figure 2b
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.
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Multiple Application Platform—MAP-200
Extensive Input/Output Interfaces The MAP-200 is a USB-, General Purpose Interface Bus- (GPIB-), and Ethernetenabled device that supports the latest test equipment interface standard, local area network (LAN) extension interface for instrumentation (LXI). LXI is the Ethernetbased successor to GPIB. The LXI standard defines devices using open-standard for system inter-device communication. All mainframe configurations include: • GPIB, Ethernet, and USB device ports for remote communication • 4 USB host ports for installing peripheral devices, including USB drives, a mouse, and a keyboard
• LXI-compliant Trigger Bus connections • Ethernet reset button • Laser interlock key in the front and remote interlock connector in the rear • LXI-compliant light emitting diodes (LEDs) on the front panel • DVI connector for external monitor
Standard Compliant Automation Drivers MAP-200 is supplied with Interchangeable Virtual Instrument (IVI) drivers, which are intuitive and optimized for ease of use with popular Application Development Environments such as LabVIEW, Visual C++, Visual Basic, and LabWindows™. These drivers provide full control of the modules and provide drop-in instrument programming capabilities, allowing test programmers to focus on test-level functions and sequences rather than the details required to communicate with the specific modules in the MAP system. The IVI drivers allow for simulation mode that lets Automation Developers capture system configurations so they can perform most of their development off line, freeing hardware for other purposes. These features make test automation development and debugging fast and easy. 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
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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 Optional Dimensions (W x H x D)3 29.2 x 14.9 x 42.0 cm (11.5 x 5.9 x 16.6 in) Weight 5.9 kg (13 lb) Operating temperature Storage temperature Humidity
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
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) Resolution Power Weight
10.4-inch color screen 800 x 600 resolution Supplied from mainframe via MAP-200A01 Keypad/Display Cable Harness Kit 1.8 kg (4 lb)
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MAP-280
Included 49.6 x 14.9 x 42.0 cm (19.6 x 5.9 x 16.6 in) 6.8 kg (15 lb)
Multiple Application Platform—MAP-200
Ordering Information
For more information on this or other products and their availability, please contact your local JDSU account manager or JDSU directly at 1-800-498-JDSU (5378) in North America and +800-5378-JDSU worldwide or via e-mail at
[email protected]. Product Code
Description
Mainframes (Required) MAP-280 MAP-200 8-slot mainframe MAP-280R MAP-200 8-slot mainframe factory reversed configuration MAP-230B MAP-200 3-slot mainframe Power Cords (Required) CORD-AU Australia/China power cord 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-200BKD MAP-200 stand-alone keypad/display module MAP-200A01 MAP-200BKD keypad/display cable harness kit 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-200B09 MAP-200BKD keypad/display module rack-mount kit MAP-200A10 MAP-200 3-slot mainframe 19-inch rack-mount kit 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-200A06 MAP-200 blanking plates (kit of 3) 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.
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MAP Erbium-Doped Fiber Amplifier (mEDFA-A1) Key Features
• Pre-amp, booster and in-line configurations • High output power and gain maximize operating range • Low noise figure minimizes optical impairment • Monitoring and alarms available • Can be automated when used with MAP-200 LXI-compliant interfaces and IVI drivers
Applications • In-line, pre-amp and booster amplifier emulation • Dense wavelength division multiplexing (DWDM) transmission for multi-channel applications • SONET/SDH systems for single channel applications • Optical signal-to-noise ratio (OSNR) experiments
Safety Information • The MAP EDFA, 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.
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The Multiple Application Platform (MAP) Erbium-Doped Fiber Amplifier (mEDFA-A1) is optimized for the industry-leading MAP-200 platform from JDSU. Based on the previous-generation MAP, the MAP-200 is the first photonic layer lab and manufacturing platform that is LAN Extensions for Instrumention (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 EDFA has a saturated output power ranging from 14 dBm to 21 dBm, features noise figures as low as 3.7 dB and has gain flatness better than 2.0 dB. All MAP EDFA models are available for operation in C- or L-band.
MAP Erbium-Doped Fiber Amplifier
Specifications
Parameter
1550
Amplifier type Pre-amp Operating wavelength range 1528 to 1565 nm Input signal Single channel Saturated output power >14 dBm (minimum)1 Noise figure (maximum)2 37 dB (minimum)3 Input/output monitors No Polarization dependent loss 20 dBm >17 dBm
Booster DWDM 1528 to 1563 nm Multichannel (DWDM) >21 dBm
Pre-amp
Booster
In-line
1565 to 1610 nm Single channel >15 dBm
1565 to 1610 nm Single channel >15 dBm
1565 to 1610 nm Single channel >20 dBm
30 dB
32 dB
35 dB
25 dB
24 dB
22 dB
28 dB
Yes
