Ruggedized Small Channel Count Switch Module
Contents
1. Channel Code Grid Code Frequency THz Wavelength nm 18945 189 45 1582 44 9275 92 75 555 34 8620 86 20 610 06 8950 189 50 1582 02 9280 92 80 1554 94 8625 86 25 609 62 8955 189 55 1581 60 9285 92 85 554 54 8630 86 30 609 19 18960 189 60 1581 18 9290 92 90 554 13 8635 86 35 608 76 8965 189 65 1580 77 9295 92 95 1553 73 8640 86 40 608 33 8970 189 70 1580 35 9300 93 00 553 33 8645 86 45 607 90 18975 189 75 1579 93 9305 93 05 552 93 8650 86 50 607 47 8980 189 80 1579 52 9310 93 10 1552 52 8655 86 55 607 04 8985 189 85 1579 10 9315 93 15 552 12 8660 86 60 606 61 18990 189 90 1578 69 9320 93 20 551572 8665 86 65 606 17 8995 189 95 1578 27 9325 93 25 1551 32 8670 86 70 605 74 9000 190 00 1577 86 9330 93 30 550 92 8675 86 75 605 31 9005 190 05 1577 44 9335 93 35 55052 8680 86 80 604 89 9010 190 10 1577 03 9340 93 40 1550 12 8685 86 85 604 46 9015 190 15 1576 61 9345 93 45 549 72 8690 86 90 604 03 9020 190 20 1576 20 350 93 50 549 32 8695 86 95 603 60 9025 190 25 1575 78 55 93 55 1548 92 8700 87 00 603 17 9030 190 30 1575 9360 93 60 548 52 8705 87 05 602 74 9035 190 35 157 9365 93 65 548 12 8710 87 10 602 31 9040 190 40 1574 9370 93 70 1547 72 8715 87 15 601 88 9045 190 45 1574 1 9375 93 75 547 32 8720 87 20 601 46 9050 190 50 71 9380 93 80 546 92 8725 87 25 601 03 9055 190 55 30 9385 93 85 1546 52 8730 87 30 600 60 9060 190 60 89 9390 93 90 546 12 8735 87 35 600 17 9065 1902. G G G G H H H H S eee E j o cl elel celnl ni nHn nH Insertion Loss 1550nm lt 1 0dB lt 1 3dB 12 G G G G H H H H Repeat dility lt 0 1dB 16 G G G G H H H H Meva tI lt 0 3dB 20 H H H H H H H H 1260 1675nm 24 H H H H H H H H Polarisation Dependent Loss lt 0 05dB lt 0 10B 28 H H H H H H H H 32 H H H H H H H H Return Loss gt 55dB cc H H H H H H H H Crosstalk lt 700B lt 60d0B CC Reconfigurable Switching Time lt 15ms Pee an Packaging Information Fibre Type 50 125 62 5 125um Fibre Count Options Tray Dimensions _ Power Total Dissipation Insertion Loss 1310nm lt 1 7dB lt 2 0dB Extended Environment 19 rack mount Insertion Loss 850nm lt 2 20B lt 2 50B LC Connectors 1U high Ethernet amp RS232 Repeat dility lt 0 1dB 4 32 FC SC or 25W Raa ess gt 40dB ST Connectors rack mount Creestalk lt 504B CRR Etmeme amp 2U high EE Rees Normal Switching Time lt 15ms Environmen i 19 rack mount Envi ta a r ronment 36 64 3U high 50W Maximum Optical Power 27dBm r e r an Ordering amatin Switch Lifetime 10 Cycles The p scheme is as follows Q rating Temperature 10 to 402C Nommal Environment lt 85 RH non condensing S A A 4 A 4 4 Qoerating Temecture 5 to 55 Extended Environment lt 90 RH non condensing Storege Temperature 40 to 70 C 1 T d tp Nommal Environment lt 40 RH non condensing C Reconfigurable
3. Code Fiber Type With Options lt O 7 SMF28 no option 9 PMF no option SO MAP Dual DFB Laser Cassette Qy Sample MAPL 2U2196301962027FP Code Channel Code Code Channel Code Code Output Code Connector Type XXXXX See channel XXXXX See channel Power Bulkheads code grid code grid 1 10 mw FP FC PC 2 20 mW FA FC APC Code Fiber Type Option 7 SMF28 no option PMF no option SMF28 monitor port 1 option PMF monitor port 1 option AlL uo UL is a registered trademark of Underwriters Laboratories Inc If the configurations available do All statements technical information and recommendations related to the products herein are based upon information believed to be not meet performance reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any reserves the right to change at any time without notice the design specifications function fit or form of its products described herein global sales and customer service including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products team to discuss the p otential for herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and en the JDS Uniphase logo are trademarks of JDS Uniph
4. aan AEETI se OOO Applications Integration into polarization maintainin fiber PMF output test systems Phase control in testing reflection ef efts on transmitters Clock synchronization Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Key Features High accuracy Repeatability of 0 02 ps e HD3 optical delay range of 170 ps HD4 optical delay range of 350 ps e GPIB and RS 232 remote control The JDS Uniphase Optical Delay instrument produces a controlled amount of delay by restricting the path length and the optical delay time of transmitted light in an optical fiber This instrument can be used in a polarization mode dispersion PMD emulation system or in a PMD interferometric measurement system to vary the path length in one optical branch of the system It can also be used to vary the modulation phase of reflections for the testing of effects on transmitters The insertion loss IL is optimized to be lowest at the center of travel The display is factory set to read 0 ps at this point The instrument is available with single mode SM fiber or PME The input and output FC PC or FC APC connectors are front panel mounted A zero offset function allows the user to set the display to 0 ps at any path time setting The Optical Delay is a programmable instrument that can be controlled from the front panel or by the GPIB and RS 232 interfaces 145 NORTH AMERIC
5. Weight Q 2 3 kg All specifications guaranteed at 1550 nm and at 23 C 1 Saturated Output Power measured S at 1550 nm at Pj 4 dBm O at 1550 nm at P 6 dBm for model 1546 at 1550 nm at Pj dels 0 1552 1554 1558 at 1590 nm at P 4 dBm mid span for models 1590 1592 1594 4 dBm mid span for mo 2 Noise figure measured at Pin 6 dBm pre amp for model 1546 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 6 dBm for model 1546 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 for Pip 6 dB for model 1546 20 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP ERBIUM DOPED FIBER AMPLIFIER For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPO 1E15520FP20 MAPO 1E C C Code Description Code Connector Code Characteristics 1546 Mid span access Type 0 Standard booster FP FC PC 1550 C Band Pre amp FA FC APC
6. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Gain Flatness a GEESE Devices Erbium Doped Fiber Amplifiers EDFAs Semiconductor Optical Amplifiers SOAs Introduction A key parameter for optical amplifiers in Dense Wavelength Division Multiplexer DWDM systems is the gain flatness The variation is best measured with the all the different channels present In this way the effects of spectral hole burning are accurately considered A key issue in the use of optical amplifiers is that the gain flatness will vary depending on the actual operating conditions Measurement Method The test set is calibrated by measuring the ratio of the output power at the Device Under Test DUT and the losses through the switch paths and the loss before the Optical Spectrum Analyzer OSA The tap and power meter are used to set the desired input power The measurement consists of setting the switches to measure the input spectrum and then setting them to measure the output spectrum The ratio of N with the proper calibration offsets provides the gain flatness Note that it is necessar ci for any gain due to noise at the source The gain flatness is the maximum variation on ny two signal wavelengths Laser _ E Sources AN yro DUT Switch ATT OSA SS ter S Standards Qe IEC 61290 a SG cal fibre amplifiers Basic specification Part 1 1 Test methods for gain yc Sion and test methods for th
7. Pamay wre Coren ining C Mares Oore to Ow F Peter T Plamen r Crowe Tae Pummi Parwmenes eal Tea Faroe Thess Mowe n Feat Cont Winston Sect Pint Pen Tak O DTS et wee i wes O Ype ee amp t K L alal x al i x RL Measurement with SWS2000 179 NORTH AMERICA 800 498 JDSU 5378 WEBSITE www jdsu com WORLDWIDE 800 5378 JDSU SWEPT WAVELENGTH SYSTEM SWS2000 a JDS Uniphase Specifications SWS2000 Performance Single Output Source Optics Module Wavelength range 1520 to 1630 nm C L band 1420 to 1530 nm S band Absolute wavelength accuracy 2 pm Measurement resolution 1 pm Wavelength sampling resolution 3 pm Insertion loss IL measurement accuracy 0 05 dB 0 to 25 dB device IL including polarization state averaged IL 0 10 dB 25 to 45 dB device IL 0 20 dB 45 to 65 dB device IL Dynamic range gt 70 dB Loss measurement repeatability 0 02 dB NN Loss measurement resolution 0 01 dB S Return loss RL measurement range 60 dB Polarization dependent loss PDL measurement accuracy 0 05 dB 0 to 20 dB devi using standard detector module SWS15107 0 10 dB 20 to 40 vice IL PDL measurement accuracy 0 01 dB 0 to oip ice IL using tuned PDL detector module SWS15107 A 0 03 dB 2 device IL with 13 point smoothing and 4 averages N PDL measurement repea
8. eo MAP Precision Attenuator with Power Ay Nien Control peaje A high resolution wide wavelength o Stee range attenuator Available with 1 or 2 i devices per cassette single mode or multimode fiber four standard connector types and tap option or power control feature Page 22 NN nm Optical Transmitter a LD externally modulated 1550 nm ransmitter The transmitter provides complete control of the bias circuitry and low chirp operation It also includes the required modulator driver Page 28 ig MAP 1310 to 1550 nm Optical Receiver a A broadband APD based receiver from front panel connector Provides both analog and a digital limited output The limiter threshold can be set automatically or manually Page 32 prn pn MAP Polarization Controller al An efficient and precise polarization controller that can create any state of E polarization May also be used as part of oim a polarization state analyzer NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP Selection Guide ne OY a MAP Variable Backreflector Provides precise levels of return loss RL 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 Page 38 MAP Power Meter Features accuracy high linearity and extremely low polariza
9. gt reserves the right to change at any time without notice the design specifications function fit or form of its products described herein global sales and customer service including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products i herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and team to discuss the potential for the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders specialized solutions 2005 JDS Uniphase Corporation All rights reserved 21031273 Rev 006 03 05 51 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase MAP DFB Laser COMMUNICATIONS INSTRUMENTATION DFB Laser 4 os DFB status For stand alone applications the MAP DFB Laser may be used as a benchtop Applications DWDM transmission testing Fiber characterization Optical amplifier testing co Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 INVISIB
10. Reres the right to change at any tme without notice the design specifications function fit or form of its products described herein SS including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21039846 Rev 004 03 05 3 5 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase COMMUNICATIONS INSTRUMENTATION MAP Polarization Controller Polarization 4 Controller For stand alone applications the MAP Polarization Controller may be used as a benchtop Applications Passive component PDL and polarizatio mode dispersion PMD measure sO EDFA noise and polarization depentfit gain PDG measurements 10 GbE transceiver worst case relative intensity noise and dispersion penalty measurements Optical signal to noise ratio OSNR and extinction ratio ER measurements Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 36 Key Features Complete polarization con
11. 25 dBm to 3 dBm and over tl erating temperature range 3 Optical input power 13 dBm wavelength 1550 nm 4 Positive and negative outputs are limited Cable lengips G d not matched and phase difference may vary by 50 ps 5 Guaranteed performance Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP 1310 to 1550 Optical Receiver UL is a registered trademark of Underwriters Laboratories Inc MAPR 110053FP All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase aa RNs the right to change at any time without notice the design specifications function Ht or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more
12. A component of a connector that holds ao i and aids in its alignment usually cylindrical in shape with a hole through the center C A diffraction grating produced N a variation of the refractive index that is photo imprinted by using a Ko Variation of oO 4 passband of an optical device ultraviolet light The ratio of ou it cufrent voltage or power to input voltage or power respectively Indj pra linked allowing for simultaneous movement TheWbility of a device to withstand the removal or swapping of one or more components such as power supplies without interrupting the operation of the instrument Total optical power loss caused by insertion of an optical component such as a connector splice coupler etc into a previously continuous path The extent to which optical power from one signal path is prevented from reaching another signal path A switching action that requires a specific force or signal to place a switch in a position where it remains until prompted by another force or signal The deviation of a measured change of a performance parameter from the expected change NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Reference of Technical Terms LOSS VS WAVELENGTH MODULATION MULTIMODE MM MULTIPLEXING ORTHOGONAL POLARIZATION MODES PASSBAND PASSIVE OPTICAL COMPONENTS PIGTAIL POLARIZATION POLARIZATION DEPENDENT CENTER WAVELENGTH
13. NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com Accessories and Support Options Included in This Section Measurement Accessories et DETECTOR ADAPTERS JUMPERS 2 mm and 3 mm InGaAs and 5 mm Ge detectors only Hybrid Master Jumpers 2 meters Part Number Description Part Number Description AC100 Detector cap M FPFA B 002 S1 FC PC Master to FC APC AC101 FC adapter regular connector AC102 ST adapter M FPSU B 002 S1 FC PC Master to SC APC AC103 SC adapter regular connector AC104 D4 adapter M SCFA B 002 S1 SC PC Master to FC APC AC105 Biconic or biconic SPA regular connector AC106 DIN DF M SCSU B 002 S1 SC PC Master to SC APC AC107 SMA906 regular connector AC108 Diamond HMS 0 ENG We Master to FC PC AC109 SMA905 adapter r connector AC112 MT ribbon connector M FASC B C APC Master to SC PC f regular connector AC113 Ribbon fiber holder requires AC120 M SUEP B 002 1 SC APC Master to FC PC AC114 me regular connector acl pine C3 002 51 SC APC Master to SC PC AC116 FC ST SC universal adapter Q regular connector AC117 MPO MTP Q AC118 LC C alibrated Hybrid Jumper AC119 MT RJ O Part Number Fiber Type WL Range um AC120 Adapter holder for AC121 and CH200 A2 FAFP 9 125 FAFP 1 3 1 5 AC121 Bare fiber holder require 2 CH200 A2 SUFP 9 125 SUFP 1 3 1 5 CH200 A3 FAFP 9 125 FAFP 1 3 1 5 1 6 10 mm InGaAs detectors only lt CH200 A3 SUFP 9 125
14. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU INSTRUMENTATION LITERATURE REQUEST instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION 2 x N Compact Switch Matrix Module SMM Series Applications OEM Applications S Incorporation into customized swi O assemblies Network monitoring and testing Sensor switching Source detection selection Research and development R amp D Configurations e 2x4 2x8 2x12 2x 16 2x 20 2 x24 Dual configuration 2 of 2 X N s in one module Single mode SM or Multimode MM fiber 900 um buffered fiber Semi blocking standard or non blocking special option Complies with GR 1073 Key Features High optical performance High repeatability Latching Absolute position feedback Off position optional Status feedback Compact size ower insertion loss IL and Wnty tions Semi bloc cross con Special Options Fully Daocking for unlimited cross gection functionality ignal may be interrupted on both G s while switching The SMM series fiberoptic matrix switch is ideal for applications requiring an optically passive switch transparent to signal format providing high optical performance and bidirectional signal capability in a small form factor The switch is latching with absolute position feedback The full feature set makes it ideal for a wide spectrum of applications The switch connects to two common channe
15. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP Selection Guide a 12 MAP Tunable Laser An external cavity tunable diode laser that offers exceptional speed accuracy and flexibility at a competitive price Page 64 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 69 lt of e passive optic nts for test sets Highly configu le contains passive optical devices such as splitters and taps Supports angle or flat polish connectors as well as single mode and multimode fibers Page 76 MAP Utility Simplifies the amp ed SS MAP Large Channel Count Switch A bidirectional switch allowing the connection of a common port to any number of channels up to 50 Available in single or dual switch configurations Exhibits low insertion loss and high return loss Page 66 S Qr Switch 50 Ohm coaxial switch for routing RF and microwave signals at frequencies up to 26 5 GHz NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Multiple Application Platform MAP Series Key Features Hot swappable cassettes cassettes can be inserted or removed without powering down Master slave conf
16. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Insertion Loss Swept Wavelength Product References The SWS Devices Wavelength Division Multiplexing WDM Dense Wavelength Division Multiplexing is the ideal system to execute DWDM isolators circulators switches taps splitters GFF Uns best amethigad Introduction Swept wavelength measurements are very similar to the basic fixed wavelength SWS Tunable Laser Insertion Loss IL measurement from a procedural perspective The fandamental difference is its SWS Source Optics Module ability to measure the loss as a function of wavelength rapidly and accurately through the use of a SWS Receiver sweeping laser source and unique real time measurement technique This makes it the method of choice for DWDM components where parameters such as bandwidth and center wavelength are required parameters extracted from the basic IL 1 data The reader is referenced to the fixed wavelength method as general introduction Communication Source Optics Power Power Module Meter Meter em Sue oe DUT ept wavelength measurement technique as embodied in the Swept Fuses a continuous sweep of a tunable laser to generate the optical ics Module provides system co ordination and real time measurement of This wavelength information is communicated through a communication channel thgt c e embedded optically on the same fiber as the source laser or through
17. P P Gains Out ASE Standard IEC 6 M1 Optical fibre amplifiers Basic specification Part 1 1 Test methods for gain a Optical spectrum analyzer ITUN 661 Definition and test methods for the relevant generic parameters of optical amplifier devices and subsystems Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below DEB Laser MAP DEB Laser Tunable Laser MAP Tunable Laser Attenuator MAP Precision Attenuator Power Meter MAP Power Meter OSA external vendor Switches MAP Small Channel Count or MAP Large Channel Count Switches 214 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Optical Modulation Amplitude Devices 10 Gb s ethernet transmitters Introduction One measure of an optical transmitter is the how open the modulated eye is For the 10 Gb s ethernet standard this quantity is called the optical modulation amplitude It is the absolute difference between the optical power in a logic one and a logic zero DUT Receiver Filter Oscilloscope Pattern Generator Measurement Method The pattern genergte N square wave consisting of 4 to 11 consecutive bits The optical output is sent t Ma brated receiver The optional filter is a fourth order Bessel Thompson as defined in ITU GWA he oscilloscope display should be calibrated to measure absolute power The eee is the abso
18. Qoerates with dark or lit fibe Protection switching Fully no blocking Tnstrumentation grade switching Bi directiawl qoeratian e Test and measurement Protocol and bit rate independent RF oer fibre Fasy to integrate e Secure networks e V 12V coeratio e Automated optical canponent test High Speed Parallel or RS232 interface e High power laser source switching Miltimoce fibre tims Reconfigurable switch variants High performance optical switch solutions PROD 403 01 0 PERFORMANCE SPECIFICATIONS a a r a ey 5 a 04 c c c c D D D D A RE i os c c c c eon Deneoeel nen Insertion Loss 1550nm lt 1 0dB lt 1 3dB 12 c c c c D D D D Repeat dility lt 0 1dB 16 c c c c D D D D 20 D D D D D D D D 1260 1675nm 24 D D D D D D D D Polarisation Dependent Loss lt 0 05dB lt 0 10B 28 p o D D D D D D 32 D D D D D D D D Return Loss gt 55dB cc D D D D D D D D Crosstalk lt 700B lt 600B CC Reconfigurable Switching Time lt 15ms EPE ae Packaging Information Fibre Type 50 125 62 5 125 Fibre Count _ Module Power PR a Environmental Dimensions mm Dissipation I
19. Dispersion Penalty Devices 10 Gb s ethernet transmitters SONET transmitters directly modulated lasers modulators l DUT Switch Fiber Switch ATT H rc Spans or Emulator Pattern Error Clock Generator Detector Recovery Introduction One limitation in optical systems is t unt of dispersion that can be tolerated Since the dispersion comes mainly from the fiber alby limits the overall system length Measurement Method The pattern genera AY a Pseudo Random Binary Sequence PRBS pattern The switches are set to connect the D Under Test DUT directly to the receiver The optical attenuator is set to a power level enables error free transmission The switches are then set to go through the fiber path Th Qi will have a certain dispersion that depends on the wavelength The fiber path may i Gral amplifiers and attenuators The signal power in the path has to be low enough s t there are no non linear effects One alternative is to use a dispersion emulator to tune igpersion Typical lengths of fibers may vary from 10 km to 600 km The optical power at the qS 1s set to the same power as the previous measurement The error rate is then mensure wer is then increased until error free performance is obtained The amount of PN er required is the dispersion penalty Standards ITU G haracteristics of a single mode optical fibre cable TIJ G aracteristics of a dispersion shifted single mode optical fibre cable I 654 Ch
20. FA FC APC Sp for BBS1590 SC SC PC 2 So mW output power SU SC APC available for BBS1550 and BBS1590 Standard Accessories Part Number Description ED000899 A 00 Standard 19 inch rackmount kit Optional Accessories Part Number Description ED000899 A 01 Rackmount kit Japan gt 250 mW output power available for BBS1550 UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase SEDIR Sesi eied PENU E E S sense N O 150 including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109643 Rev 006 03 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com Meters JD
21. Integrated variable attenuation QS power monitoring gotions are also os Ultra low insertim loss e Low Polarisation Dapendent Loss e Fast switching speed Excellent repeat dility High power handling Qcerates with drk or lit fibe e Fully no blocking Bi directional qoeratim Protocol and bit rate indeoendent e Easy to integrate e Ethemet RS232 or GPIB interface Plug and Play qrati Miltimode fibre tims e Reomfigureble switch variants a ee ee eee pu Photonic switches are based on ented Micro Actuation and Sensing System g technology All Polatis switches provide ultra low loss comnections through a direct beam steering architecture that points iut ad cutout fibers at each other APPLICATIONS Qotical network reamfiguration e Hybrid O0 OHO switches Qotical bypass e Fibre switching e Protection switching e Instrumentation grade switching e Test and measurement e RF oer fibre e Secure networks eAutamated optical canponent test E power laser source switching High performance optical switch solutions co m N N o N A N fo w N PERFORMANCE SPECIFICATIONS
22. MAP Benchtop MAP 2B00 NS The MAP Benchtop brings the MAP products to your lab bench without O compromising performance Its form factor and lower cost make it ideal for small test sets When test needs growth the application can be expanded with MAP Benchtop in a master slave configuration or transferred to an eight slot MAP Master Software applications developed for the MAP Benchtop can be transferred to a MAP Master without any modifications Key Features Compatible with the MAP Slave 3 slot capacity Connectors Accessible at Front Connectors Accessible at Rear Front Rear Front Rear 14 MAP Master Reconfigurability NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MULTIPLE APPLICATION PLATFORM Continued I J0Su MAP Console L x Gle yew Tools Help ala BHs all Chassis 1 Chassis 2 chassis 3 Chassis 4 Chassis5 Chassis6 Chassis 7 Chassis 8 MAP Sienulation 6 c Simulation 7 seeti 500 wy 1540 000 4 View of MAP Console Program Sofgw nd P Console and Drivers Zi supplied with comprehensive PC based instrument drivers and MAP le for added functionality Drivers supplied include ActiveX DLL and VIEW These provide full control of the cassettes and are compatible with all S the standard Automation Development Environments ADEs including O LabVIEW Visual Basic and TestPoint These drivers provide drop i
23. POLARIZATION DEPENDENT LOSS PDL POLARIZATION MODE DISPERSION PMD POLARIZATION STABILITY SENSITIVITY REPEATABILITY RETURN LOSS RL The variation in insertion loss over a specified wavelength range shown in a spectral plot The process by which the characteristic of one wave the carrier is modified by another wave the signal Capable of handling supporting the propagation of more than one bound mode at a given operating wavelength To use a common propagation medium such as an optical fiber to provide for two or more channels The process of combining two or more signals together to increase the tal bandwidth N A polarization mode that is independent and mut Q e of another polarization mode The range of frequencies where the loss of sy or system is with a range of specified limits A device in which operations are perf r y the propagation media through which the waves pass without the use of input uo an that contained in the waves themselves A length of optical AN to a connector source detector or coupler used to couple fiber between yi the device and the tr on fiber The orientation the electric field in a lightwave T ATY e of the peak transmission or reflection wavelength on the state of poR ization of the incident light The difference between the maximum and minimum values of loss due to the variation of the polarization states of light propagating through a device Dispersio
24. i to di th ial fi iali lutions and B 70 x 17 x 40 mm wW ese D service team to discuss e potentia or specia ized solutions UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be Eble or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility i is assumed for any reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109647 Rev 006 03 05 1 1 3 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Ruggedized Small Channel Count Switch Module SR Series Key Features Typical IL 0 6 dB Return loss RL greater than 55 dB Several configurations available Reliable small modules suitable for rugged environment
25. 0 25 dBm typical at 10 dBm Relative accuracy power 0 05 dB lt 5 dB loss 0 15 dB gt 5 dB loss 0 15 dB Remote interface RS 232 GPIB optional Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption V AQnaximum Display 160 h a ter LCD Operating temperature C Storage temperature 40 to 70 C Humidity M 95 RH from 0 to 40 C Dimensions W x H x D 26x 11x 26cm Weight 74 4 kg 1 Reduced backreflection accuracy in the last 10 dB of range based on termination RS the user calibration procedure at the recommended interval For simple effectiveness Depending on the measurement setup measurements with lower levels are ections such as flat end connectors possible at reduced accuracy QIS 0 1 dB between 70 and 80 dBm 2 For a typical application add 0 4 dB for readings between 60 and 67 dB Agid 5 Immediately after performing a dark measurement Not including the 1650 nm source dB for readings between 67 and 72 dB Add 1 5 dB for readings between Q 6 Add 0 1 dB between 0 3 dBm and between 35 and 40 dBm 75 dB Ordering Information N For more information on this or o cts and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JISQU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample RM3750 1FA7 mec aoan Oo Code Light Source Wavelength nm Code
26. 7 9 125 8 Flexcor 1060 HA9P only gt If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions Flexcor is a registered trademark of Corning Incorporated UL is a registered trademark of Underwriters Laboratories Inc ST is a registered trademark of Lucent Technologies All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109631 Rev 006 02 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu
27. 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU Environmental Test Systems Long term reliability and environmental testing of optical components and qualification to Telcordia specifications is used by manufacturers in the design process and is required by purchasers as part of the incoming inspection process to ensure that components meet specifications This type of testing is also useful for product integrity auditing and quality control The Optical Component Environmental Test System OCETS addresses these considerations By adding the SWS2000 high performance dense wavelength division multiplexing DWDM tester to the OCETS and switching to the SWS EMA Environmental Measurement Application software package the SWS can utilize the high performance switching matrix of the OCETS to extend its own performance to the reliability and environmental testing of wavelength division multiplexing WDM and DWDM components which require highly resolved wavelength insertion loss and polarization dependent loss testing Included in This Section COMMUNICATIONS INSTRUMENTATION Key Features Up to 160 device channels Unattended long term operation Very high repeatability Measures parameters required in Telcordia GR 326 CORE GR 910 CORE GR 1209 CORE GR 1221 CORE Tests all classes of passive optical components broadband to degse wavelength division multiplexing DWDM Ultra low x RL 65 dB option Polar amp
28. 800 5378 JDSU WEBSITE www jdsu com 4 JDS Uniphase i f MAP MULTI RATE ELECTRICAL CLOCK AND DATA RECOVERY pecifications Parameter Minimum Typical Maximum Data rates NRZ coding balanced transition density 9 95328 Gb s 10 3125 Gb s 10 51875 Gb s 10 66423 Gb s 10 70923 Gb s Data frequency tolerance 9 953 10 664 10 709 Gb s rates 40 ppm 10 3125 and 10 51875 Gb s rates 120 ppm Data input Electrical single ended or differential Data input impedance single ended 50 Ohms Data input single ended amplitude AC coupled 10 mV p p 1V p p Output impedance single ended for data 50 Ohms clock and clock 4 outputs Data output amplitude AC coupled non inverting 500 mV p p Clock output amplitude AC coupled 300 mV p p Clock output intrinsic jitter wideband N S 0 03 UI RMS source jitter excluded PRBS 2 1 Clock output jitter transfer bandwidth 5 MHz Clock 4 output amplitude AC coupled 500 mV p p Clock 4 output squelched 20 mV Clock 4 output intrinsic jitter 0 02 UI RMS typical source jitter excluded PRBS 2 1 Clock 4 output jitter transfer bandwidth 80 kHz Data and clock BER data 10 mV p p NRZ PRBS 2 1 10 Flectrical connectors SMA Operating temperature 0 to 50 C Storage temperature 30 to 60 C Dimensions W x H x D PA 4 06 x 13 24 x 39 5 cm Weight 1 8 kg 1 Maximum differential input skew 10 ps 2 By de
29. For the All State method a complete or as close as time permits sampling of input states of polarization is made and the minimum and maximum losses are yee pe e recorded The difference is the PDL The Mueller method requires Tyoy Togo Tyoy Togo making 4 loss measurements at the 4 mg Toas A M 5 houro orthogonal states of polarization 0 90 90 and Right Hand Circular and using the equations 2 2 2 F Mop Mo M m PDL 10 x Log Pmt 10x Log a ABAAA Omax mao M M M Standards IEC 61300 3 02 All States Method IEC 61300 3 12 Mueller Method 219 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Dependent Loss Swept Wavelength Product References The SWS is the ideal system to execute this test method SWS Tunable Laser SWS Source Optics Module SWS20002 A N1 SWS Receiver SWS Polarization Controller 220 Devices WDMs Dense Wavelength Division Multiplexers DWDMs isolators circulators switches taps splitters GFF Introduction Swept wavelength measurements are very similar to the basic fixed wavelength Insertion Loss IL and Polarization Dependent Loss PDL measurement from a procedural perspective The fundamental difference is its ability to measure the PDL as a function of wavelength rapidly and accurately through the use of a sweeping laser source and unique real time measurement techni
30. Front panel access provides the option of increasing functionality through the addition of other devices such as couplers or switches The 5 V driver key on the front panel connected to the 5 V driver on the back acts as a toggle for an external or internal if installed switch The HA9 and HA1 attenuators can be fitted with a 10 90 or 50 50 coupler or a 1 x 2 switch to provide an output tap to access two inputs or outputs All models have an SCPI HP8156A compatible command set and can be controlled from the front panel keyboard or by nae RS 232 interfaces 133 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE ATTENUATOR Specifications Parameter HA1 High HA 9 Highly HA9W Wide HA9P Flexcor HA2 High Resolution Configurable Wavelength Fiber Power and Range Wavelength Flat Operating wavelength range 1200 to1700 nm 1200 to 1700 nm 750 to 1700 nm 980 to 1100 nm 1280 to 1670 nm Attenuation Range 100 dB 100 dB 60 dB 60 dB 50 dB Resolution 0 001 dB 0 01 dB 0 01 dB 0 01 dB 0 01 dB Repeatability 0 01 dB 0 01 dB 0 01 dB 0 01 dB 0 01 dB Change rate lt 2 5 s 0 to lt 2 5 s 0 to lt 1 5 s0 to lt 1 5 s 0 to lt 1 5s0to 100 dB 100 dB 60 dB 60 dB 50 dB Accuracy 0 1dB 0 1 dB 01 0 1 dB 0 1dB Insertion loss IL S Single mode SM lt 1 5 dB lt 1 5 dB B N A lt 1 0
31. Instrumentation IUNICATIONS JERCIAL amp DEFENSE MER A Worldwide Leader in Optical Techneleg File Edit View Favorites Tools Help IDS Uniphase Corporation Communications Instrumentation Microsoft Internet Explorer Back gt amp A A GQsearch GFavortes Ameda A B SS EH News g Address http www jdsu com index cfn pagepath Products Communications_I instrumentation amp id 1837 L a N co tinks Gsnaatt i PRODUCTS MARKETS COMPAN Mar 21 2005 4 JDS Uniphase Acquires Leading d Commercial Laser Provider Lightwave 4l JDS Uniphase 2005 Home Products Communications Instrumentation JDS Uniphase Enables Growth of Intelligent Networks L band ROADM 32 channel ROADM products now available for both C and L band Communications Instrumentation Mar 02 2005 ran JDS Uniphase to Present at Deutsche Bank Information Technology Hardware B Conference Ag gt Receive proxy materials electronically Communteations Instrumentation Product Categories Applications a E http www jdsu com index cfm pagepath News Insight_Newsletter8id 2035 erf providing hi larch and dev urem mplifiers Attenuators Clock and Data Recovery Emulators Filters Meters N t proc Y NEWS INVESTORS b CUSTU Pi ict Find Contact Us 3 exible Solutions for surement igh performance o With a wide cost Multiple A
32. MAP Utility ee ee Devices WDMs Dense Wavelength Division Multiplexers DWDMs isolators circulators switches taps splitters GFF Introduction While Insertion Loss IL is one of the most fundamental measurements required for passive fiberoptic components the polarization dependence of the loss is clearly important Polarization Dependent Loss PDL is defined as the maximum difference in loss measured over all states of polarization While the PDL is typically small compared to the IL on the order of 0 005 to 0 5 dB the impact on fiberoptic systems can be great due to the drift in the state of polarization in single mode fiber and the concatenation of many devices These two effects can causes the PDL to randomly add or subtract and can cause a significant change in the receive power It will vary as a function of wavelength just as IL and should be quoted with the measurement conditions specified YY S Splice Cutback Break ees Tunable Q i Power Tunable Laser 4 Filter Olal ization m XSH DUT Controller Meter or DFB or BBS Optional Wavemeter Qy Power Meter Opti Qy Source Monitor Measurem nt o The simplest implementation requires an optical source polarization broadband power meter By adding the above optional blocks the measurement can re accurately and with more accurately stated input conditions There are two generally ted methods for making the measurement All State Scanning or the Mueller 4 State Method
33. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase SMALL CHANNEL COUNT SWITCH MODULE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SW101 2075UFPE1 5 mi e ee ee a Code Number Code Control Code Control Type Code a Code Pigtail Length of Input 0 Direct FP 0 3 minimum length Channeli 2 TTL FA a ae DO A ee Sc 1 5 1 5 meters standard en SU pigtail length Code Fiber Type um No connector Me te ________l__ 7 9 125 Sy 9 9 9 9 meters Code Number 1 50 125 of Output CC Channels 2 62 5 125 turn Loss 01 1 4 100 140 45 dB SM only Code Pigtail Type 32 z 55 dB SM only high RL L 3 0 mm jacketed cable BP Bypass 5 20 dB MM only E 900 um tight buffer fiber e Code Wavelength a Gy B Bidirectional 55 dB D 1310 1550 SM 20 dB MM 3 1310 5 1 PA 8 Q MM only Mechanical Package based on switch t Ss Switch Type 900 pm fiber 3 mm cable 1xl A B 1x2 A B 2BP A B If the configurations available do not meet your performance Where A 40 x 17 x 40 mm W x H x D requirements please contact our global sales and customer
34. Wavelength System SWS is well suited for this type of testing It provides measurements of Insertion Loss IL as a function of wavelength Switch Application In the example shown below a combination of switches is used to test multiple devices that each have multiple outputs such as an AWG demultiplexer In the configuration below the output from the SWS control module is connected to a 1 X N switch The output of this switch is connected to the input of each device The output of the device is connected to a detector channel input of the SWS receiver The switch can step through each device and output The use of an M X N ganged switch and the multiple detection PS f the SWS decrease measurement time o gt GPIB Interface 5 _ Device 1 x N Switch Multi channel ps Device 1 Sie tek eee ee eee eS 4 Environmental Chamber Ganged M X N Switch Product References 1 X N switches are available in both the MAP platform and as stand alone units A software package for environmental testing based on the SWS is also available 228 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Switch Application Multiple Application Testing Introduction It may be necessary to perform multiple tests on a single device In addition most systems have multiple devices that need to be tested Performing these tests can require a m
35. as a 2 x 6 matrix ports 1 and 2 can be thought of as inputs with ports 3 to 8 as outputs However a connection from port 1 to port 2 both inputs in the example is still possible at all times Thus using an N port SGRM switch does not require any type of reprogramming or rearrangement to switch from use as a 2 xM or AxB The transition is seamless 8 Port Matrix Configuration NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com al Aod JDS Uniphase ORC ane AND RECONFIGURABLE MATRIX SWITCH Specifications Parameter Typical Maximum Insertion loss IL Single mode SM 1 0 dB 1 8 dB Multimode MM 1 0 dB 1 8 dB Return loss RL SM 60 dB 55 dB MM 25 dB 20 dB Polarization dependent loss PDL SM 0 03 dB 0 07 dB IL stability 0 1 dB 0 2 dB IL change on power off 0 5 dB 1 0 dB Repeatability 0 04 dB 0 05 dB Crosstalk maximum SM S 80 dB Input power optical 0mW continuous Lifetime gt 10 million cycles Switching time single channel increments 2 120 ms average connection 225 ms Input power consumption 500 V A maximum Operating power 100 to 240 V AC 50 to 60 Hz Control amp remote via GPIB and RS 232 interfaces Operating temperature 0 to 50 C Storage temperature 40 to 70 C Humidity maximum 95 RH from 0 to 50 C non condensing Dimensions W x H x D Cj 3U 19 inch r
36. at specified time intervals during the test and the required parameters for each device under test are measured User selected parameters are calculated from these responses and are logged along with the time and environmental data 165 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com ENVIRONMENTAL TEST SYSTEMS a JDS Uniphase Continued Sw4 Sw5 COUPLER COUPLER ILref 2 2 ILref RLref 1 1 RLref Sw3 LASER 1310 nm SOURCE BOX 1550 nm POWER METER Bidirectional Test Configuration At the core of ironmental Test System is a pair of high quality JDS Uniphase pr mable switches 1 x N configuration The switches feature an industry epeatability of 0 003 dB Th s combined with the appropriate source and monitoring hardware P ted software create a fully automated turnkey measurement facility tional polarization controller is installed when PDL measurements are ired A personal computer supplied is used to set up the tests control the measurements and monitor the results The systems were designed to meet in house JDS Uniphase needs and have been in service for over 10 years Two types of Environmental Test systems are available the Optical Component Environmental Test System OCETS suitable for measurements on wideband devices such as splitters isolators switches connectors jumpers cable assembl
37. latching 0 02 0 025 dB N gt 25 non latching N gt 22 latching 0 03 0 04 dB Repeatability sequential switching N lt 25 non latching N lt 22 latching S 0 005 0 01 dB N gt 25 non latching N gt 22 latching Q 0 01 0 03 dB Repeatability random switching AN N lt 25 non latching N lt 22 latching Q 0 01 0 05 dB N gt 25 non latching N gt 22 latching 0 03 0 08 dB Crosstalk Cj N lt 25 non latching N lt 22 latching 80 dB N A N gt 25 non latching N gt 22 latching 80 dB N A Switching time first channel each additional ch 25 15 ms Maximum input power optical 300 mW Lifetime gt 100 million cycles Operating temperature 5 to 55 C Storage temperature 30 to 60 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 1 3 kg 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 67 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP LARGE CHANNEL COUNT SWITCH Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e
38. 134 Not including connectors switch or coupler if installed Over 850 to 1600 nm IL is typically highest at wavelength extremes Total of discrete reflections Does not include distributed reflection in fiber From 1375 to 1670 nm lt 1 5 dB from 1280 to 1375 nm ofa ND MN Relative to reference 0 dB setting NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE ATTENUATOR Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample HA097 28KFA1 HA L 2 T m H E Code Model Code Built in Options Code ConnectorType S 01 HA1 high resolution 0 None all ports 1200 to1700 nm 1 50 50 coupler FP FC PC 02 HA2 high power 9 125 um only FA FC APC wavelength flat 8 1 2 switch SC SC PC Q 09 HA9 1200 to 1700 nm HA1 and HA9 only SU SC APC Q 9P HA9P Flexcor 1060 9 10 90 coupler WN 980 to1100 nm 9 125 um only 9W__ HASW 750 to 1700 nm 4 Code _ Port Type 1 Bulkheads on front Code Return Lo Qy 3 Pigtails on front Code Fiber Type um K Standard 1 50 125 HA9 and HA9W only A A 2 62 5 125 HA9 and HA9W only
39. 1480 1490 1550 1625 and 1650 nm for single mode meters The use of an FC APC ultra low backreflection connector on the output port enables the use of hybrid jumpers to accommodate measurements with various connector types without compromising the backreflection measurement range When a device under test DUT is connected to the jumper and the DUT output is terminated the backreflection of the DUT is displayed The meter s superior optics are very stable at low backreflection levels Insertion loss IL and power can be measured to 80 dBm Other features include compensation for extraneous backreflection user adjustable calibration an internal rechargeable battery for field portability a transit carrying case and a convenient foot pedal for data logging to a U VU U d D Vid C u C d VO 153 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Cs Aol JDS Uniphase BACKREFLECTION METER pecifications Parameter Single mode SM Multimode MM 5 125 um 9 125 um 50 125 um and 62 5 125 um Operating wavelengths 980 10 nm 1310 1480 1490 850 1310 1550 20 nm 1550 1625 1650 10 nm Backreflection range 0 to 65 dB 0 to 75 dB 0 to 40 dB Relative accuracy backreflection 0 4 dB 0 7 dB Detector type 2 mm InGaAs 3 mm InGaAs Power range 0 to 80 dBm 0 to 60 dBm Absolute power accuracy 0 25 dB typical at 10 dB
40. 15 and 1310 15 for MM unit Including one mated pair of connectors At 23 5 C Not including tap coupler loss if installed Constant wavelength constant temperature constant state of polarization GN a E a a a Outside these wavelength ranges the typical accuracy is the greater of 0 1 dB or 0 003 dB dB 7 At1310 15 and 1550 15 nm 8 At 1550 15 nm for SMF and 1310 15 for MMF 9 Over output power range Maximum specification at 1310 15 and 1550 15 nm for SM unit and at 850 15 and 1310 15 for MM unit 10 Add 0 01 dB dBm for output power below 45 dBm at 1310 and 1550 nm and output power below 40 dBm at 850 nm 24 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP PRECISION ATTENUATOR Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPA 2319101FA MAPA 23 FO H Code Fiber Type um Code Connector Type all ports coy 19 50 125 750 to 1350 nm FP FC PC 29 62 5 125 750 to 1350 nm FA FC APC 70 9 125 1200 to 1700 nm SC SC PC SU SC APC O Code Cassette Type 1 Single attenuator Qy 2 Dual attenuator identical s Code Built
41. 2A06 MAP Cassette Blanking Plates 3 MAP 2M01 MAP Master Main Control Module MAP 2A09 MAP oftware and Documentation CD MAP 2M02 MAP Master Local Interface Module 10108925 r s Manual MAP 2M03 MAP Master Remote Interface Module 21057090 AY Programming Guide MAP 2A03 MAP Rackmount Kit An optiona h rackmount kit part number MAP 2A10 MAP 2A06 MAP Cassette Blanking Plates 8 MAP 2A04 MAP Safety Interlock Key MAP 2A09 MAP Software and Documentation CD os is Oy mount one or two units in a 19 inch rack 10108925 MAP User s Manual C 21057090 MAP Programming Guide sO MAP Slave Chassis MAP 2S00 Qe MAP 2A01 MAP 19 inch Chassis MAP 2A02 MAP Power Supply S MAP 2S01 MAP Slave Main Q dule MAP 2S02 MAP Slave Local Inter amp ce Module MAP 2S03 MAP Slave Remote Interface Module MAP 2A03 MAP Rackmount Kit MAP 2A06 MAP Cassette Blanking Plates 8 UL is a registered trademark of Underwriters Laboratories Inc MAP 2A07 MAP 8 inch Interconnect Harness ActiveX and Visual Basic are registered trademarks of Microsoft Corporation MAP 2A09 MAP Software and LabVIEW is a registered trademark of National Instruments Corporation Documentation CD 10108925 MAP User s Manual TestPoint is a registered trademark of Keithley Instruments Inc 21057090 MAP Programming Guide All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy
42. ATT anh Jhis polarization controller is typically run at a higher frequency than the input Pr ity OD troller The variation in output power is measured for each channel The maximum vg e s ted OSA H ATT Standarg S I 2 Performance specification template on optical amplifiers Part 4 Optical fibre a iers tor multichannel applications ITU G 661 Definition and test methods for the relevant generic parameters of optical amplifier devices and subsystems Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below DEB Lasers MAP DEB Laser Switches MAP Small Channel Count Switch Attenuator MAP Precision Attenuator Power Meter MAP Power Meter OSA external vendor Tap MAP Utility Polarization Controller MAP Polarization Controller 218 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Dependent Loss Fixed Wavelength Product References This test can be built with several components or by using a meter which incorporates several of the blocks such as the JDS Uniphase PDL Multimeter PS3 Series The parts required for a modular approach are shown below Tunable Laser MAP Tunable Laser DEB Laser MAP DEB Laser Tunable Filter MAP Tunable Filter Polarization Controller MAP Polarization Controller Wavemeter external vendor Power Meter MAP Power Meter Tap Coupler
43. Devices MAP Utility 66 69 73 76 MAP Selection Guide MAP Master A flexible instrumentation platform ideal for optical or the electro optical test and measurement applications A 19 inch rackmountable chassis featuring 8 slot capacity over 20 hot swappable instrument cassettes color display dynamic MAP firmware and console that automatically identifies installed cassettes reversibility for front rear access ActiveX console and drivers with simulation mode and expandable capacity to 64 cassetges by adding up to seven 8 slot slave chassis Page 14 S MAP Benchtop D Bring the power of MAP to your lab bench An economical solution for test Q pesuiting 3 or fewer instrumentation cassettes Easily expgndgble by adding up to seven 8 slot chassis slave ERO upworting up to 59 cassettes Page 14 Application Referen o 2 addresses standard testing requirements in addition to evolving the table below for a sampling of tests and the appropriate measurement to the Test and Measurement Reference section for a comprehensive guide to test and Nasurement applications 10 Gb s TRANSMITT 4 EX NCTI ON OSNR INTRINSIC OPTICAL POLARIZATION INSERTION POLARIZATION RETURN NETWORK DISPERSIC RAU JITTER GAIN DEPENDANT DEPENDENT LOSS TEST BED PENALTY GAIN LOSS 10 Gb s Receiver y y v 10 Gb s Transmitter Clckand Data Recovery a a a amp amp amp DFB Laser Faby Perot Laser a s e S R E
44. If you require emergency technical ort a Technical Support Specialist will be paged and will return your call promptly For further information including Extended Support Options and Technical Training please refer to the Accessories and Support Options section Contact Support Regular support hours of operation are 8 00 AM 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 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Included in This Section MAP Selection Guide Multiple Application Platform MAP Amplifiers MAP EDFA Attenuators MAP Precision Attenuator Electro optic Instruments MAP Multi Rate Electrical Clock and Data Recovery MAP 1550 nm Optical Transmitter MAP 850 nm Optical Transmitter MAP 1310 to 1550 nm Optical Receiver MAP 850 to 1550 nm Optical Receiver Emulators MAP Polarization Controller MAP Variable Backreflector Filters MAP Tunable Grating Filter Meters MAP Power Meter Sources lt MAP Broadband Source O MAP DFB Laser MAP DFB Laser Analog Modulation MAP Fabry Perot Laser MAP LED Source MAP Tunable Laser Switches MAP Large Channel Count Switch MAP Small Channel Count Switch MAP RF Switch Utility Passive
45. Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPL 1A119340FA ii ajajana L Code Number of Channels Code Channel Code Code Connector Type 1 Single channel 19340 1550 12 nm wavelength FP FC PC 58 FA FC APC Qy If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other tra
46. JDSU 5378 WORLDWIDE 800 5378 JDSU INSTRUMENTATION LITERATURE REQUEST instruments jdsu com polatis Optical Switch Module OSM The Polatis OM family is a reme of fully no blocking tical switch modules designed for OEM integration Excellent repeatability and gotical perfomance are achieved for both single m and multimode fibre variats using Polatis direct beam steering technology Switches are available in both symmetric NN and asymmetric NxM formats with N aada M fibre counts ranging frm 4 through to 32 in incremnts of 4 for single mode products Multimode switches logy Plat form are currently available with fibre cants up to 16x16 Polatis photonic switches are based n patented Micro Actuation and Sensing System MASS technology Polatis also of fer Reconfigurable switch modules allowing the user to create any matrix shape within ttal fibe count Reomfigurable switch dimensie y mn fm 8 thah to 32 A All Polatis switches provide ultra low loss camecticons cs The modules are supplied in a camat p through a direct beam steering architecture that points incorporating all required drive add ipt and atot fibers at each other N APPLICATIONS Ultra low insertim loss O amp M system integration e Low Polarisation Dependent Loss e Hybrid OO OHO switches e Fast switching speed e ROADM e Excellent repeat dolity Qtical bypass High power handling Five switching
47. OSA external vendor Tunable Laser MAP Tunable Laser 222 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Mode Dispersion Jones Matrix Method ee O Devices Fiber isolators circulators Dense Wavelength Division Multiplexer DWDM devices Introduction Polarization Mode Dispersion PMD is the variation in delay with polarization state This leads to pulse broadening For systems such as OC 192 and OC 768 PMD results in eye closure The main source of PMD is the transmission fiber The best fibers have PMD of 0 08 ps km while older fibers may have 1 ps km or more Other sources of PMD include the isolators and Erbium doped fiber used in amplifiers Tunable Polarization DUT i Laser Controller Polarimeter Measurement Method The Jones matrix method s amp s the change in 3 known polarization e Wavelength is changed The change in states launched into the Device Under Test Q polarization state is measured with a rang ince the wavelength step size is small this measurement can be used with devices havig g narrow passband A key issue for this type of measurement is the required step size Q size is related to the amount of PMD G 455 122 PMD measurement for singlemode optical fibers Standards EIA Fiber Optic Test Proced C by the Jones matrix eigena Product Reference IND solutions are available for measuring chromatic dispersion or
48. Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21051231 Rev 003 02 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase MAP Utility COMMUNICATIONS INSTRUMENTATION For stand alone applications the MAP Utility may be used as a benchtop Applications e Bit error rate BER test e Passive component test O Optical amplifier test Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 76 Key Features Many tap ratios available Up to 3 couplers per cassette SM and MM The Multiple Application Platform MAP Utility Cassette is designed to simplify the mechanical integration of passive optical components for test sets It is a highly configurable cassette that contains passive optical devices such as 1 x4 splitters 1 x 8 splitters and taps It supports angle or flat polish connectors and single mode SM and multimode MM fibers A blank cassette is available for mechanical mounting of components such as isolators circulators or fixed attenuators The cassettes are supplied with mounting hardware and up to ten bulkhead adapters for ease of integration NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP U
49. SMALL CHANNEL COUNT SWITCH MODULE Specifications Parameter Typical Maximum Insertion loss IL Single mode SM 0 5 0 8 dB Multimode MM SW1 x 1 1x2 2xB 0 4 0 7 dB Return loss RL SM Low 50 45 dB SM Ultra low 60 55 dB MM 25 20 dB Polarization dependent loss PDL 0 12 dB at 1310 nm 0 07 dB at 1550 maximum IL stability2 gt 5 0 03 0 05 dB Repeatability 0 005 dB maximum Crosstalk maximum SM 70 60 dB S Optical input power SM 300 mW maximum QO Lifetime At least 10 million cycles Switching speed 10 15 ms Duty cycle 5 Hz Control interface Direct cont sistor logic TTL control Operating voltage Direct control 55 Qy at 45 mA TTL control 5 AN Cat 70 mA Operating temperature Storage temperature Humidity 5 maximum non condensing Dimensions W x H x D 40 x 17 x 40 mm fiber or 70 x 17 x 40 mm cable package A or B Weight 45 and 80 g packages A and B respectively Customized specifications are available O At room temperature and optimized at 850 1310 oN amp 50 nm Excluding connectors Drift of any channel relative to the straight through path at 3 C deviation of ambient temperature over a seven day period Please contact JDS Uniphase for details on testing methods Dn wv e U N e Measured between two consecutive readings over 100 cycles 112
50. SUFP 1 3 1 5 1 6 Part Nitaben Decapyen O CH200 A6 FAFP 9 125 FAFP 1 4 1 5 1 6 ACTU Detector cap Q CH200 A6 SUFP 9 125 SUFP 1 4 1 5 1 6 eo FC adapter CH200 07 FAFP 50 125 FAFP 0 8 1 3 ACOA MT bban conne tor CH200 07 SUFP 50 125 SUFP 0 8 1 3 AD MEOT CH200 17 FAFP 62 5 125 FAFP 0 8 1 3 AC204 Ribbon cable bare fiber adapter CH200 17 SUFP 62 5 125 SUFP 0 8 1 3 AC205 SC adapter AC206 MT RJ adapter forl10 mm ADDITIONAL ACCESSORIES UCAs Universal Connector Adapters 10 mm Ge detectors only Part Number Description Part Number Description AC500 FC PC to FC PC jes Peace ray AC501 FC PC to SC PC ALADI POP adapter AC502 FC APC to FC APC AAO MPO MILE elope AC503 EC APC to SC APC T Part Number Description AC320 20 dBm integrating sphere AC330 33 dBm integrating sphere 1 87 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Instrumentation Accessories ne ee 1 This plug is not polarized For the connector table E Earth L Line N Neutral DESTINATION Australia China Austria Belgium Finland France The Netherlands Germany Spain Portugal Sweden Chile Korea Denmark Hong Kong Ireland United Kingdom Malaysia North America Central America Colombia Ecuador Japan Taiwan Venezuela Thailand ILLUSTRATION PART NUMBER 9 B E n IN ND A0100740 Ss o ie S A0100742 EA B Power Cord JDS Uniphase provides the appropriate power
51. Test band C band L band Operating wavelength range 1527 to 1568 nm 1565 to 1610 nm Spectral gain flatness maximum 1 8 dB 2 5 dB 1 8 dB 4 5 dB Gain flattened range 1529 to 1565 nm 1570 to 1603 nm Total output power stability 0 02 dB Output isolation minimum 45 dB Input voltage 100 to 240 V 60 Hz Power consumption 90 V u Operating temperature Storage temperature Humidity a 0 amp 0 0 C maximum 95 Yihon condensing from 0 to 45 C Dimensions W x H x D 7 2 x 8 9 x 35 5 cm Weight lt 4kg 1 Measured at 1547 nm C band at 23 C 2 Measured at 1586 nm L band at 23 C 3 Over one hour at 23 C after one hour of warm up 149 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP BROADBAND SOURCE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample BBS1550 2FP02 BBS Heo Code Model 1550 C band 1527 to 1568 nm 1590 L band 1565 to 1610 nm a Code Connectors O 4 Optional four 0 Standard ond for B Code Outpalt p Q Code Connector Type FP FC PC 0 utput power
52. Wavelength Resolution Bandwidth pm Wavelength Resolution Bandwidth pm Typical Group Delay Performance Curves 30 183 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase Es SWEPT WAVELENGTH SYSTEM SWS OMNI EXPANSION Specifications Parameter Specification Wavelength Measurement range C L band 1520 to 1630 nm Wavelength span 110 nm Absolute accuracy 2 pm Wavelength sampling resolution 3 pm Measurement resolution 1 pm Insertion loss IL gt Dynamic range 45 dB Accuracy AN 0 to lt 5 dB 0 05 dB 5 to lt 25 dB 0 10 dB 25 to 45 dB 0 25 dB Resolution 0 01 dB Group delay Z Dynamic range 20 dB Accuracy at lt 10 dB IL Uncertainty Modulation frequency Maximum slope Polarization dependent loss PDL Dynamic range Qi OB Accuracy 0 to lt 10 dB 0 05 dB Resolution 0 01 dB Differential group delay Dynamic range 20 dB See performance curves below Polarization mode dispersion PM uracy typical 0 02 ps DGD uncertainty O D 1 Measurement resolution is defined as the smallest shift in wavelength that can be detected using the analysis function 2 Measured using SWS OMNI transmitter under optimal power output Polarization state averaged Maximum deviation from NIST standard reference 2524 Ind
53. a set up can be b dividual parts The complete solution is available in the Swept Wavelength System SWS System The parts required for a modular approach are shown below Polay Controller MAP Polarization Controller o er external vendor able Laser MAP Tunable Laser 223 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Return Loss 224 Devices Passive components Introduction Return Loss RL or reflectance is the ratio of the reflected power to the incident power The return loss must be measured at all the wavelengths the device will be exposed to Poor return loss can lead to unstable interferometric cavities The most common example is a poorly mated connector Laser Sources TAP DUT Power Meter Measurement Method The test set is calibra A ring the tap ratio between the Device Ant of scattered light is then determined by fie DUT is terminated The return loss is then measured by comparing the ratio of t wer incident on the DUT with the reflected power Special care must be taken in the wei sure there are no reflections from the tap output connections to the power meter WN Standards TIA 455 107 mex ination of component reflectance or link system return loss using a loss test set IEC 60300 measuremen ptic interconnecting devices and passive components Basic test and res Part 3 6 Examinations and measurements RL IEC ge ibre optic intercon
54. built by several components or from meters which incorporate several of the blocks JDS Uniphase Polarization Dependent Loss PDL Multimeter Backreflection Meter Multichannel Backreflection Meter The parts required for a modular approach are shown below DEB Laser MAP DEB Laser Tunable Filter MAP Tunable Filter Polarization Controller MAP Polarization Controller Wavemeter external vendor Power Meter MAP Power Meter Tap Coupler MAP Utility Tunable Laser MAP Tunable Laser 208 Devices Wavelength Division Multiplexers WDMs Dense Wavelength Division Multiplexers DWDMs isolators circulators switches taps splitters GFF Introduction Insertion Loss IL is the most fundamental of all the measurements required for passive fiberoptic components It relates the coupled input power to the output power through the device under test It will vary as a function of wavelength and state of input polarization and should be quoted with knowledge of both of these parameters Like most measurements the complexity will vary depending on the accuracy required Splice Cutback Break Source Tunable Poanzanon Douer Tunable Laser a Filter oer Ta XS DUT Haa or DFB or BBS Optional Opiera NS Wavemeter Power Meter Optional Qy Source Monitor Measurement Method In gene hl and broadband power meter more accurate and with RA process In the first power is measured the device be original
55. channels up to 50 The cassette is available in single or dual switch Amplifier characterization configurations Bit Crror Tate BER testing The MAP switch cassette is based on JDS Uniphase expanded beam Signal routing and alignment technologies and exhibits low insertion loss IL and high return l RL Safety Information oie This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 66 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP LARGE CHANNEL COUNT SWITCH Specifications Parameter Typical Maximum Typical Maximum Single mode fiber Multimode fiber SMF 9 125 MMF 50 125 and 62 5 125 Wavelength range 1270 to 1670 nm 850 to 1350 nm 750 to 940 nm Insertion loss IL N lt 25 non latching N lt 22 latching 0 5 0 7 dB 0 4 0 6 dB N gt 25 non latching N gt 22 latching 0 8 1 2 dB 0 7 1 0 dB Polarization dependent loss PDL N lt 25 non latching N lt 22 latching 0 02 0 04 dB N A N gt 25 non latching N gt 22 latching 0 04 0 08 dB N A Return loss RL NN N lt 25 non latching N lt 22 latching 62 57 dB S 25 20 dB N gt 25 non latching N gt 22 latching 55 45 dB O 20 20 dB IL Stability N lt 25 non latching N lt 22
56. com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION Manual Variable Attenuator Applications Optical power control e Receiver testing S Field system testing Power meter linearity checks 136 Key Features Precision attenuation Two calibration wavelengths e LowIL RL gt 60 dB Very long battery life Portable for field use e Rear bulkhead connectors The JDS Uniphase Manual Variable Attenuator is a compact portable instrument for field system testing and test and development in laboratory applications It provides continuously variable attenuation range of up to 65 dB with calibration wavelengths of 830 1300 nm or 1300 1550 nm Attenuation is set manually from the front panel at a 0 1 dB resolution Unlike programmable attenuators the attenuation level is maintained when the power is turned on or off The attenuators use JDS Uniphase s ultra linear attenuator prism to produce accurate attenuation settings with low insertion loss IL and excellent return loss RL The display features a large scale LCD readout and the instrument is powered by a long lasting 9 V lithium battery for hand held operation in the field Input and output ports are equipped with rear panel mounted connector bulkheads and all major connector types are available NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MANUAL VARIABLE ATTENUA
57. com a JDS Uniphase MAP PRECISION ATTENUATOR Continued Application Controlling Output Power One of the primary applications of an attenuator is to create a precise signal of known output power With the MAP Precision Attenuator three options are possible A standard attenuator To control output power measurement of the input power is required prior to testing Output power is externally calculated based on the set attenuation Figure a shows a standard attenuator A standard output tap Calibration oXthe output power is achieved through use of an external power meter ration of the tap path loss Adjustments for changes j ohh require external adjustments of the attenuator Figure b s e mplementation of the standard output tap An internal in line powe itor Output powers can be set directly with internal calibration Qiong compensating for input power and path losses In additiogf it may be set into a closed loop mode where ically controlled Figure c shows the internal attenuator Figure 1 Optical configuration of the attenuator cassette a without options b with tap option c with in line power monitor option 23 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP PRECISION ATTENUATOR Specifications Parameter Single mode fiber SMF without Power Monitor Single mode Multimode Multimode fiber SMF fiber MMF fib
58. cord for the destination specified on the purchase order If another power cord is required please specify at the time of order Rackmount Kit 188 if another rackmount type is needed Destination Part Number Japan ED000899 A 01 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Instrumentation Technical Support ee Technical Support JDS Uniphase has a dedicated post sales support team ready to help you answer any questions or concerns about Instrumentation products Please refer to the front of this catalog for technical support contact information Extended Support Options In addition to our standard level of support coverage on all our products you may wish to purchase one or more of our support services to help you meet your specific needs Tell us what your requirements are We will work together to find a Extended Support Options include S Extended Warranty Service agreement Qy Loaner products Technical training S On site calibration enia Q Please refer to LON Support Details section or contact our technical support team for further info gt 189 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Instrumentation Technical Support 190 Extended Support Details Extended Warranty One two and three year extended warranties are available for many of our products JDS Uniphase will warranty your product for an ex
59. d lt 0 01 dB Linearity at T 23 5 C 1520 lt A lt 0 025 dB 65 tQO2B Return loss RL Q dB gt 50 dB Noise peak to peak SN 5 pW lt 100 pw Averaging time Q 00 us to 5s 100 us to 5 s Analog output 0 to 2 volts N A Recalibration period 74 1 year 1 year Warm up time 20 minutes 20 minutes Operating temperature 5 to 40 C Humidity non condensing Dimensions W x H x D 4 06 x 13 24 x 39 5 cm 8 12 x 13 24 x 39 5 cm Weight 1 2 kg 1 Six rows of 12 fibers with a 0 250 mm vertical and horizontal pitch 2 Reference condition Fiber type SMF 28 Ambient temperature 23 3 C Spectral width of source lt 1 nm Optical power on detector 100 uW 10 dBm 3 Reference condition CW laser with P 10 dBm Wavelength 1550 nm FWHM lt 10 nm SM fiber with single channel FC connector adapter Ambient temperature 25 3 C 4 Operating conditions NA of fiber lt 0 27 Temperature humidity and power ranges as specified For FC APC connector N A 0 27 add 1 5 For wavelengths gt 1600 nm and temperatures gt 35 C add 1 0 6 Polarization Polarization states at fixed wavelength 1550 30 nm and constant power Straight connector T 23 5 C 7 Ripple 1545 lt A lt 1565 nm Fixed state of polarization Constant power Straight connector T 23 5 C 8 For 3 dBm gt P gt 30 dBm 9 RL At 1310 nm and 1550 nm 8 angled connector T 23 5 C 10 Noise Averaging time 1
60. environment NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase SWEPT WAVELENGTH SYSTEM SWS OMNI EXPANSION Continued source 5 OPTICS MODULE SWS20010 A 2 SWS OMNI RECEIVER SWS20009 C L band lation Frequency Feature VMFF To improv oup delay noise and resolution conventional modulation phase ent techniques often employ an adjustable modulation BN ich needs to be set before measurements are made In contrast the S I system uses the proprietary VMFF All swept group delay ments are made at a fixed modulation frequency 192 MHz optimized e 3 pm wavelength sampling step of the SWS The data is then post processed to achieve higher effective modulation SWS OMNI Vir Performance Curves 0 30 y 0 2 7 I oso Average 1 H Average 5 H Average 10 H Average 20 H Average 40 H S 0 15 Vv 0 20 5 y ee amp N A o N N lt 3 N 2 01 N a o N ia N KON fo if Q A 0104H here SEL E N Average ki s Average 10 0 05 ro k Average 20 t Average 40 L ER EH 0 00 H 0 iP H i 100 1009 1 10 100 1000 Typical Differential Group Delay Performance Curves 30
61. for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21031274 Rev 005 02 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com Switches JDS Uniphase is a pioneer in fiberoptic witches and offers a diverse and innovative switch roduct line The line includes 1 x N fiberovcic sv itch modules benchtop and rackmount progra nmable switches and M x N matrix switches that provide up to 32 x 32 channels of connectivity The full product line is available in both multimode and single mode with specialty fiber variants developed on request For special optical switching needs and specific test requirements customized solutions are available in our SA Series Custom Switch Assembly The performance configuration and flexibility of JDS Uniphase switches make them suitable for a wide range of applications including fiberoptic component testing remote fiber system testing in telecommunication networks transmitter receiver measurements reconfiguration and restoration in broadband fiber telecommunication networks and research and develo
62. free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and P PM the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 1 46 S SM 2005 JDS Uniphase Corporation All rights reserved 10109638 Rev 005 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Benchtop Broadband Source BBS Series Ors E 4l JDS Uniphase ses EREE Applications Optical component spectral tests S Systems compliance tests Optical measurement systems Sensors and imaging Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Meets the requirements of Class 3B in standard IEC 60825 1 2002 and complies with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 Key Features Choice of wavelengths C band and L band Flattened output power spectrums High output power density High spectral stability Optional quad outputs The JDS Uniphase Benchtop BBS series provides a wide wavelength and high output power source within the 1525 to 1610 nm window Its superior performance is achieved by pumping erbium doped fiber to generate ampli
63. gt 55 dB selected port MM gt 30 dB PDL SM only 1x2 1x3 1x4 2x2 2x4 D lt 0 08 dB 1x5 1x6 1x7 1x8 2x6 D 2x8 D lt 0 10 dB IL stability 1 hour 0 02 dB 24 hours 0 05 dB Repeatability 1x2 1x3 1x4 2x2 2x4 D lt 0 01 dB p p 0 005 dB 1x5 1x6 1x7 1x8 2x6 D 2x8 D lt 0 02 dB p p 0 01 dB Crosstalk isolation Selected port to other ports lt 60 dB lt 50 dB non selected to other non selected bi directional lt 50dB lt 40 dB Optical input power 300 mW maximum Lifetime gt 10 million cycles Switching time lt 20 ms 5 not applicable to SQ cassette channels excludes repeatability 2 At 23 C 3 C at specified test wavelengths 850 1310 MM or 1310 1550 SM and 4 Repeatability as per Telcordia GR 1073 CORE 100 cycles max min peak to peak optical input power of 25 to 0 dBm excluding connectors not applicable to SQ cassette 7 1 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP SMALL CHANNEL COUNT SWITCH Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Ordering Structure for Option A Sample MAPS 2W73823FPL MAPS 2W 3 Code Fiber Type um Code
64. gt 1 47 dB gt 1 80 dB selection of internal ISI filter 10 3125 Gb s Extinction ratio at 10 3125 Gb s Adjustable from 3 to 4 dB PRBS 27 1 bit stream N 100 MHz to 2 0 GHz Eye mask margin Sinusoidal interferer input frequency ran Sinusoidal interference input level lt 20 dBm External ISI filter port SMA female connectors for passive devices only apply no AC or DC voltages General Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption 75 V A maximum 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 13 2 x 44 9 x 50 0 cm 19 inch x 3U x 20 inch Weight 12 4kg 1 Specification guaranteed at these data rates 9 95328 10 3125 10 51875 Gb s 2 IEEE Std 802 3ae Reference Transmitter rise and fall time 20 to 80 specification is lt 30 ps 3 IEEE Std 802 3ae Reference Transmitter vertical eye closure penalty 1 center region of eye specification is lt 0 5 dB 141 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com STRESSED EYE GENERATOR a JDS Uniphase Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jd
65. manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SCG06D20241 27XF000FP HO Oo e Ci Te E SCG ale i o Code Fiber Type um Code Configuration Code Number of Output 7 9 125 NN Code Cable Length D D configuration Channels 7 50 125 3mm diameter E E configuration 005 5 output channels 5 625 125 001 Tm F F configuration 4 100 140 003 3m 048 48 output channels 009 om Code Number of Output 2 72 apui channels ve NOL aiaaues Channels i Code gi bulkheads only 05 5 input channels 090 90 output channels 7 08 3 input channels Code _ Connector Type ca a 16 16 input channels 1 Bulkheads on frot 2 Bulkheads on bac Q Code Wavelength Range nm Wavelength Range nm ae See maximum 60 45 45 input channels 4 Pigtails on ba g 12 010 10 0 A eee Q 850 to 1350 MM only NC No connector B Code Input Port Type 1 Bulkheads on front 2 Bulkheads on back 4 Pigtails on back gt 1 The inputs and outputs must exit on opposite sides For example if inputs exit from the front then the outputs must exit from the rear 2 For exact layout of bulkheads and labeling contact JDS Uniphase 3 For reverse direction use bidirectional Bulkhead Li
66. s Observation time 300 s Wavelength 1550 nm T 23 5 C 47 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP POWER METER Specifications Integrating Sphere Specifications Specification Parameter Part Number AC330 Attenuation at reference 30 7 0 8 dB Spectral range 800 to 1650 nm Wavelength flatness lt 1 5 dB RL Typical gt 65 dB Relative uncertainty lt 0 05 dB Residual polarization dependent loss PDL lt 0 005 dB Maximum power 33 dBm 2 W Operating temperature 10 to 40 C RH 15 to 70 Storage temperature 30 to 60 C RH 15 to 95 no M ing 1 Measured with wavelength of 1550 nm at 23 5 C and RH 50 with straight 4 At reference cd 1 8 degree angled connector due to the polarization and connector interference 2 From 850 nm to 1650 nm refer to the wavelength of 1310 nm 5 Measur 550 nm 3 Measured at 1310 nm and 1550 nm with SM fiber and FC APC connector 6 Re CW laser Ordering Information For more information on this or other produc CJ JDS Uniphase directly at 1 800 498 JDSU 5378 in orth America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Optional Accessories Q 3 mm InGaAs MAP Power Meter Sample MAPM 2PS12 Part Numbers Description Part Numbers Description AC100 Detector cap AC121 Single bare fiber plug AC101 FC det
67. sales jdsu com Sample SQ141N 137FFPL1 0 SQ m E i i E i E L Code Test Code Control Interface Code Wavele Code __ Pigtail Length Configuration 3 2x 12 side header nm 0 3 minimum length 1 Forward 4 2x12 bottom header 127040 167 wed ag 3 Bidirectional Q 851 15 1 5 meters std C 9 9 9 9 meters Code Optical Configurations Code Option 13 1x3 Y Off position 14 1x4 N Standard channel config Code Pigtail Type 15 1x5 L 3 0 mm jacketed cable 16 1x6 E 900 um tight buffer fiber 17 1x7 18 1x8 D4 Duplex 1 x 2 2 x 4 D config Code Connector Type D6 Duplex 1 x 3 2 x 6 D config FP FC PC D8 Duplex 1 x 4 2 x 8 D config FA FC APC 22 Dual 1 x 2 2 of 1 x 2 Sc SC PC SU SC APC NC No connector If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any
68. series of s te eye parameter rise time fall time overshoot etc characterizations The mask is typic ented to include margin mask regions made larger to cover for aging and temperat ations Hits are defined as the number of samples taken that land in a keep out regi s highly dependent upon the data pattern s data pattern tg optic technology used dependent attributes of on Measurement Metho n generator providing an electrical source signal operating at the rate e g LOGbE s 10 31 nd having a pattern representing the anticipated link operations e g PRBS 231 1 ramed with PRBS 27 1 fill feeds the Device Under Test DUT unless a modulator is uated in which case a laser source is also required The DUT output is routed to an eye asurement device where interconnect and fiber cabling losses have previously been charactexiz d by use of a power meter Some manufacturing configurations include a reference iter with known Eye Mask compliance as calibration and diagnostic troubleshooting The m prevalent measurement approach is an oscilloscope utilizing a calibrated O E converter and TIA MA recommendation OFSTP 4 filter This filter is the same specified for Extinction Ratio ER testing allowing both eye mask and ER measurements to be made simultaneously Standards TIA 526 3 OFSTP 3 Fiber Optic Terminal Equipment Receiver Sensitivity and Maximum Receiver Input TIA 526 3 OFSTP 4 A Optical Eye Pattern Measurement Procedure
69. setting Repeatability can be affected by increasing speed 5 Measured between two consecutive readings over 100 cycles 108 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase LARGE CHANNEL COUNT SWITCH MODULE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SKB11C024L 2B7F1FFP ena p ppp p aoe g p o Code Optional Testing Code Features A Code Pigtail Type standard forward L Latching F 0 9 mm tight 1xN N Non latching buffer fiber B Bidirectional C 3 0 mm jacketed Gas cable Code Voltage and Data Inigrfa Code Number of A 5 V with DB9 ancPB2Xeonnector Independent Switches B 5V with TO nnector Code Connector Type 1 switch FP FC PC 2 switches C FA FC APC 3 switches Qy Code _ Fiber Type um SC SC PC 4 switches 1 9 125 SU SC APC Qy 2 62 5 125 NC No connector 4 50 125 a OS Code Number of Output Channels per Independent Switch 001 1 output channel Code Pigtail Length 1 1m O o 3 3m 085 85 output channels maximum for latching features 100 100 output channels Code Wavelength R
70. site Prerequisite Basic knowledge of fiberoptics Basic test and measurement knowledge Duration 3 days L g DOC 7 en Fri eel Te 193 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Product Discontinuance Cross Reference ee ee O Discontinuances The following products have been discontinued For questions or comments please contact Technical Support Product Last Time Buy Date End of Service Date Equivalent Part OAB 3 April 15 2005 July 1 2006 OA 1723E2 OA L1723S 2 BrightAmp BBS980XX March 1 2003 Segtember 1 2004 MAP Source cassette BLSXX February 13 2003 t mber 1 2004 No replacement VB March 1 2003 September 1 2004 None HA10 HA11 April 15 O July 1 2006 HA2 IAl July 31 2 December 31 2005 None IA2 Marchi September 1 2004 None PR 2004 December 30 2005 MAP Tunable Filter MAPF 1G TB2500XX Kben 25 2002 March 1 2004 MAP Tunable Filter MAPF 1G SWS15106 Q May 31 2003 December 31 2004 SWS20006 A SWS1511 May 31 2003 December 31 2004 SWS20015 q S 13 May 31 2003 December 31 2004 SWS20002 A S1 SWS All Band SOM with Switch SWS15101 amp SWS16101 May 31 2003 December 31 2004 SWS17101 SWS15102 X XX May 31 2003 December 31 2004 SWS20002 X XX SWS16102 X XX SW1X4 1x3 1x5 2x4 March 31 2003 May 30 2004 SQ switch SL Switches February 28 2003 May 30 2004 SQ switch S
71. time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21042187 Rev 004 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Custom Switch Assembly SA Series Key Features Flexible arrangement GPIB and RS 232 remote control e Local control via keypad and display Applications JDS Uniphase can meet your specific test application needs with the flexible Fiber test systems in telecommunications S Custom Switch Assembly Platform We combine 1 x N programmable switches data communications CATV O modular relay based 1 x 2 2 x 2 1 x 3 and other switches splitters couplers Q attenuators laser sources isolators and circulators in one package with custom s Fiberoptic component testing front and rear panels For example we can combine custom labeled inputs and Transmitter receiver measurement Research and develo
72. two power supply options are available A highly reliable e integrated module is standard As an option a dual redundant hot swappable power supply is available as a separate rackmounted addition Other options include an installation kit with rack slide set and rack extenders for a 24 inch 60 96 cm rack SG Switch Configuration Control of the device can be implemented remotely via a GPIB or an RS 232 interface A LabVIEW driver is provided in order to control and monitor connection status and switch operations 96 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE MATRIX SWITCH AND RECONFIGURABLE MATRIX SWITCH SINEES j HU JDS Uniphase ep A Applications of SGRM series Reconfiguration of fiber networks Key Features Up to 48 ports with broad wavelength operation of SGRM Series Protocol independent all optical signal path True non blocking any port to any port connectivity Instrumentation grade optics e Latching operation Remote GPIB RS 232 control Local keypad control on 3U chassis igurable Matrix Switch SGRM Series itional M x N port split is either unknown or may change as the system Transceiver testing racks On GRM series optical matrix switch is ideal for applications in which a Research and development R amp D labs S Safety Information Complies to CE requirements plus UL3 01 1 and CAN CSA C22 2 N
73. 0 18 to Connectors 3 5 mm fe 74 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP RF SWITCH Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPS 1R112 MAPS 1R Code Number of Code Type of Switch Switches 12 1 x 2 switch 1 switch 2B Bypass 2 2 independent MX 1 x 2 and bypass switches UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase SEDIR Sesi seie PENU E E S N tes Mcoes including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation
74. 060 nm maximum N A NN 0 005 dB 5 of PDL dB PDL 960 to 1060 nm typical N A G N A 0 002 dB 1 PDL dB PDL 1455 to 1665 nm maximum 0 005 dB 0 010 dB N A 5 of PDL dB 5 of PDL dB PDL 1455 to 1665 nm typical 0 002 dB 0 004 dB N A 1 of P 2 of PDL dB PDL 1250 to 1350 nm maximum 0 0 0 005 dB N A 5 of PDL dB PDL 1250 to 1350 nm typical 0 002 dB N A of PDL dB 1 of PDL dB 0 05 dB 2 of Lav dB Lav insertion loss IL Power 0 25 dB at 10 dBm Repeatability PDL 0 001 5 of PDL dB Lav accuracy 0 0014 2 of Lav dB Dynamic range PDL range 0 to 5 dB Lav IL InGaAs 3 mm gt 60 dB General Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption 100 V A maximum Rackmounting 19 inch 48 26 cm 2 U high half rack width 0 to 40 C 40 to 60 C Operating temperature Storage temperature Humidity maximum 95 up to 40 C decreasing 5 per C from 40 to 60 C Dimensions W x H x D 21 2 x 8 9 x 35 5 cm Weight 4kg For multimeters with return loss RL options only PS36 x 0 Resolution 1 0 1 or 0 01 dB Accuracy 1 0 dB Repeatability 0 7 dB Return loss RL range for 15 dBm output power gt 60 dB 1 A measurement taken with output power less than 25 dBm for the internal source and 2 Higher PDLs can be measured with reduced accuracy 30 dBm
75. 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample VA47K 1ASU20 VA 4 1 TT 2 0 Code Fiber Type um Code Return Loss Code Connector Type O 1 50 125 K Multimode MM FP FC PC 2 62 5 125 fiber FA FC APC 4 100 140 A Single mode SM SC SC PC Qy 7 9 125 fiber SU SC APC Code Calibrated Wavelengths nm G 830 1300 K 1300 1550 ST is a registered trademark of Lucent Technologies All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase SENI Asid seiber PENU E E S O O 138 including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109633 Rev 006 03 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE
76. 1110000 Optical connector FC PC Optical fiber Multimode MM 62 5 um core Output connector Q SMA female Operating temperature 0 to 50 C Storage temperature 30 to 60 C Dimensions W x Hx D lt 4 06 x 13 24 x 39 5 cm Weight O 1 8 kg 1 PRBS 231 1 bit stream at 10 3125 Gb s ER 3 0 dB 10 12 T 25 C 2 850 1310 1550 nm wavelengths only from optical input 18 to 1 dBm T 25 C 3 For optical inputs of 0 to 7 dBm ER 3 0 dB T 25 4 Positive and negative outputs are limited Cable lengths are controlled not matched and phase difference may vary by 50 ps Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP 850 to 1550 nm Optical Receiver UL is a registered trademark of Underwriters Laboratories Inc MAPR 110062FP All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase
77. 1552 C Band Booster 1554 C Band In line N 1558 Booster DWDM Code Characteristics Code Output Pow 1590 L Band Pre amp 0 Unflattened 0 Standard r 1592 L Band Booster 2 Flattened 1546 and 2 Booster high outpeft power 1594 L Band Indine 1558 only 20 con Pi for 1552 only UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase ere g tO Change al any Ume Without notce the design specinications unction It Of torm OF its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21031269 Rev 005 03 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INS
78. 1594 Amplifier type Mid span Pre amp Booster Booster In line Booster Pre amp Booster In line access booster high power DWDM DWDM Operating wavelength range 1540 to 1528 to 1528 to 1528 to 1528 to 1528 to 1565 to 1565 to 1565 to 1560 nm 1565nm 1565nm 1565 nm 1565nm 1563nm 1610nm 1610nm 1610 nm Input signal Multichannel Single Single Single Single Multichannel Single Single Single DWDM channel channel channel channel DWDM Channel Channel Channel Saturated output power 2 gt 17dBm 214dBm 217dBm 2 20dBm 217dBm 221dBm 215dBm 215dBm 220dBm minimum Noise figure maximum lt 5 5 dB lt 3 3dB lt 45dB lt 5 0dB lt 3 8dB lt 55dB lt 50dB lt 55dB lt 5 5dB Small signal gain minimum gt 23 dB 237dB 230dB 232dB 235dB 2 25dB 224dB gt 22 dB gt 28 dB MS loss lt 10 dB Input output monitors Yes No Yes Yes No SS No Yes Yes Polarization dependent loss lt 0 3 dB lt 02dB lt 02dB lt 0 2dB lt iS 54B lt 0 3dB lt 03dB lt 0 3dB PDL maximum Polarization mode dispersion lt 0 6 ps lt 05ps lt 04ps lt 04ps lt lt 0 65ps lt 06ps lt 06ps lt 0 6ps PMD maximum Input output isolation typical 32 32 dB N A 32 dB 45 32 dB 45 32 32 dB 32 32 dB N A 40 dB 40 40 dB 40 40 dB Spectral gain flatness lt 1 6 dB N A N A N A lt 1 4 dB N A N A N A maximum p p Operating temperature 0 to 40 C Storage temperature 30 to 60 C Humidity 95 RH non condensing from 0 to 45 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm
79. 2 2 No 1010 1 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 INVISIBLE LASER RADIATION CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP 850 NM OPTICAL TRANSMITTER pecifications Parameter Minimum Typical Maximum Optical performance Optical wavelength 840 nm 850 nm 860 nm Optical output power 4 0 dBm 0 5 dBm Optical power laser OFF 30 dBm Extinction ratio at 10 3125 Gb s Pseudo random 3 dB binary sequence PRBS 2 1 bit stream Eye mask margin 15 using IEEE Std 802 3ae 2002 Eye Mask definition PRBS 27 1 1000 samples Jitter 0 2 UI p p General Data rates 9 95328 10 3125 10 51875 Gb s Data patterns PRBS 2 1 27 i BaBiBnBi 11110000 Optical connector C PC Optical fiber Data input amplitude range GN 50 um core 1000 mV 500 mV Data input coupling coupled to 50 Ohms Polarity non inverting Operating temperature Storage temperature Dimensions W x H x D Digital input high Optical high c 0 to 50 C 30 to 60 C 4 06 x 13 24 x 39 5 cm Weight Q 1 8 kg 1 Specifications guaranteed at these data rates 100 ppm Ordering Information For mo
80. 20 80 52 40 The fi g table lists configurations on the SCG switch For information reg ther configurations contact your JDS Uniphase representative Switch Configuration D Configuration E Configuration Co n o F Configuration 16xN 20xN 26xN 34xN 45 x N VXI Clin MSEE LED a 16 20 26 34 45 Contact JDSU for 6 testing requirements Configuration Restrictions D Up to 45 x 90 such that number of outputs N is divisible by number of inputs M E Up to 45 inputs M and up to 84 outputs N such that M N is not more than 90 F Up to 13 inputs M and up to 14 outputs N such that M x N 1 is not more than 93 88 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Dimensions SB Model 12 74 324 8 35 7 323 212 82 r 13 78 AN 350 41 75 A 44 3 50 g 89 5 175 347 44 ji oe 4PLS _ jt J 1 97 3 7 50 88 lt A 9 28 7 1 4PLS 89 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase z BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Order
81. 2000 Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com SWS2000 Core System Part Numbers Description SWS17101 C L band Tunable Laser SWS20010 B 2 Dual output integrated source optic module SOM SWS20006 A All band control module computer and PCI kit included OWB10002 Receiver chassis SWS15107 All band detector N SWS2000 Optional Equipment and Accessories Part Numbers Description AN SWS18101 S band Tunabl g SWS15107 A Polarizati ependent loss PDL Optim l and detector module SWS15107 M All tector module multimode MM SWS20004 rconnect card and cable kit SWS20005 loss RL cassette single channel SWS20006 B and control module PCI kit included SWS20013 All band calibration kit OWB10001 A Dual Laser SOM transmission cabinet AC100 PA Detector cap AC101 FC detector adapter AC102 ST detector adapter AC103 SC detector adapter AC118 S LC detector adapter Magnetic detector adapter AC120 AC121 Bare fiber holder requires AC120 AC320 Integrating sphere J FAFP B 001 FC APC to FC PC jumper cable 1 m J FASP B 001 FC APC to ST PC jumper cable 1 m J FASC B 001 FC APC to SC PC jumper cable 1 m J FASU B 001 FC APC to SC APC
82. 226 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Switch Application 1 x N Switches ee Introduction Most optical test systems have multiple inputs and outputs It is necessary to route the light from many combinations of inputs and outputs This task can be accomplished through the use of 1 X N switches designed for Instrumentation These switches have 0 4 dB typical loss and repeatability of 0 01 dB Switch Application The figure below shows a few applications of 1 X N switches In the first application the switch provides a way to select the correct connector type for measurements This is a common situation for testing modules The second application shows the ability to select multiple outputs of a module for connection to a power meter FC PC 1 FC APC SC APC SC PC 1XN FC APC roy xN Power Meter LCC Cy FC APC Product References 1 X N go available in both the MAP platform and as stand alone units SA Q9 227 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Switch Application Environmental Testing Introduction A common task in the development of a new device is environmental testing The reliability documents define a series of temperature tests that must be done on multiple devices Typically the device performance must be monitored in almost real time The JDS Uniphase Swept
83. 5 C Humidity maximum 95 RH from 35 C to 75 C non condensing Dimensions W x H x D 127 0 x TaN mm 5 x 2 x 8 inches Weight 1 3 kg 1 All specifications referenced without connectors Qy 2 All optical measurements taken after temperature has been stabilized for one 3 Return loss specification based on 1 m pigtail length 4 Drift of any channel relative to reference channel at 3 C deviati ief temperature over 24 hour period 94 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase 2 X N COMPACT SWITCH MATRIX MODULE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SMM12C024S 1A7F2FSU Code Number of Code Features i de Connector Type Independent S Semi blocking ANN FC PC Switches FA FC APC 1 1 switch SC SC PC 2 2 switches Code Voltage and SU SC APC Data Interface Ic LC PC A 12 V with DB9 connector NC o connedo Code Optional Testing NE CONDETES Cc Standard forward 2 X N B Bidirectional Code Pigtail Type F 0 9 mm tight buffer fiber 3 output channels 1270 to 1670 024 24 output channels Q Code Number o
84. 65 572 48 9395 93 95 545 72 8740 87 40 599 75 9070 190 70 1572 06 9400 94 00 1545 32 8745 87 45 599 32 9075 190 7 1571 65 9405 94 05 544 92 8750 87 50 598 89 9080 190 Q 1571 24 9410 94 10 544 53 8755 87 55 598 47 9085 1 5 1570 83 9415 94 15 1544 13 8760 87 60 598 04 9090 i 1570 42 9420 94 20 543 73 8765 87 65 597 62 9095 1570 01 9425 94 25 543 33 8770 87 70 597 19 9100 4 1569 59 9430 94 30 1542 94 8775 87 75 596 76 9105 91 05 1569 18 9435 94 35 542 54 8780 87 80 596 34 191 10 1568 77 9440 94 40 542 14 8785 87 85 595 91 191 15 1568 36 9445 94 45 1541 75 8790 87 90 595 49 9 191 20 1567 95 9450 94 50 541 35 8795 87 95 595 07 912 191 25 1567 54 9455 94 55 540 95 8800 88 00 594 64 9130 191 30 1567 13 9460 94 60 1540 56 8805 88 05 594 22 35 191 35 1566 72 9465 94 65 540 16 8810 88 10 593 7 9140 191 40 1566 31 9470 94 70 539 77 8815 88 15 593 37 9145 191 45 1565 91 9475 94 75 1539 37 8820 88 20 592 95 9150 191 50 1565 50 9480 94 80 538 98 8825 88 25 592 52 19155 191 55 1565 09 9485 94 85 538 58 8830 88 30 592 10 9160 191 60 1564 68 9490 94 90 1538 19 8835 88 35 591 68 9165 191 65 1564 27 9495 94 95 537 79 8840 88 40 591 26 9170 191 70 1563 86 9500 95 00 537 40 8845 88 45 590 83 9175 191 75 1563 46 9505 95 05 1537 00 8850 88 50 590 41 9180 191 80 1563 05 9510 95 10 536 61 8855 88 55 589 99 19185 191 85 1562 64 9515 95 15 536 22 8860 88 60 589 57 9190 191 90 1562 23 9520 95 20 1535 82 8865 88 65 589 15 9195 191 95 1561 83 9525 95 25 535 43 8870 88 70 588
85. 7 2 C 2 C 1x8 Qy 8 2 C 2 C 2x2 cr A A 8 A 2 18 7 B 2 C 2 C 2 Config C 2 C 2 C Qne D 2 C 2 C T 4 C 4 C 2 x 2 crossover X 2 C 2 C S 1 Maximum switch density is achievable using pigtail exits For bulkhead exit maximum number of any type of switch is 3 up to a maximum of 10 bulkheads common outputs 2 D configuration refers to a synchronized parallel input channel alignment 70 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP SMALL CHANNEL COUNT SWITCH a JDS Uniphase Specifications Common Specifications Parameter Specification Operating temperature 0 to 50 C Storage temperature 30 to 60 C Humidity 90 relative non condensing Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 1 1 kg maximum varies with configuration OptionA Parameter Spedfication Insertion loss IL 1x2 E 2x2 Ni B Return loss RL O 55 dB Polarization dependent loss PDL Repeatability 0 05 dB Crosstalk G 60 dB Optical input power 300 mW Switching speed S 8 ms Option C Kisena SM Multimode MM Parameter Specification Specification IV 1x2 2x2 Qi lt 0 7 dB lt 0 7 dB 1x3 1x4 2x4 D lt 0 9 dB lt 0 8 dB 1x5 1x6 1x7 1x8 2x6 D 2x8 D lt 1 05 dB lt 0 95 dB RL excludes connectors a selected port SM
86. 73 9200 192 00 1561 42 9530 95 30 535 04 8875 88 75 588 30 9205 192 05 1561 01 9535 95 35 1534 64 8880 88 80 587 88 9210 192 10 1560 61 9540 95 40 534 25 8885 88 85 587 46 9215 192 15 1560 20 9545 95 45 533 86 8890 88 90 587 04 9220 192 20 1559 80 9550 95 50 1533 47 8895 88 95 586 62 9225 192 25 1559 39 9555 95 55 533 07 8900 89 00 586 20 9230 192 30 1558 98 9560 95 60 532 68 8905 89 05 585 78 9235 192 35 1558 58 9565 95 65 1532 29 8910 89 10 585 37 9240 192 40 1558 17 9570 95 70 531 90 8915 89 15 584 95 9245 192 45 1557 77 9575 95 75 531 51 8920 89 20 584 53 9250 192 50 1557 36 9580 95 80 1531 12 18925 189 25 1384 1 9255 192 55 1556 96 9585 95 85 530 73 8930 89 30 583 69 19260 192 60 1556 56 9590 95 90 530 33 8935 89 35 583 27 9265 192 65 1556 15 9595 95 95 1529 94 8940 89 40 582 85 9270 192 70 15593 79 9600 96 00 529 55 54 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP DFB LASER a JDS Uniphase Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com MAP Single DFB Laser Cassette Sample MAPL 2U119630190FP Code Channel Code Code Tap Option AN XXXXX See channel 0 None code grid 4 1 99 coupler DY Code Output Power 1 10 mW 2 20 mW
87. 78 JDSU WEBSITE www jdsu com a 4 JDS Uniphase RUGGEDIZED SMALL CHANNEL COUNT SWITCH MODULE Specifications Parameter Typical Maximum Insertion loss IL Single mode SM 1x 1 1x2 2x4 0 6 dB 0 9 dB SM 2x2and4x4 0 9 dB 1 2 dB Multimode MM 1x1 1x2 2x4 0 5 dB 0 8 dB MM 2x2and4x4 0 8 dB 1 1 dB Return loss RL SM 50 dB 45 dB SM high RL 60 dB 55 dB MM 25 dB 20 dB Polarization dependent loss PDL NN SM 0 06 dB S 0 1 dB IL stability 0 03 dB O 0 05 dB Repeatability 0 01 dB 0 02 dB Crosstalk SM 60 50 dB MM 35 dB Optical input power A 300 mW Switching time ait 10 ms Control signal duration AN 5 ms N A Cycle rate Q N A 10 Hz Power 5 5 V DC 50 mA 75 mA for TTL option Control Qj Direct or TTL Operating temperature N A 25 to 65 C Storage temperature N A 40 to 80 C Humidity non condensing N A 95 Dimensions W x H x D SR1 x 1 1 x 2 2 x 2 70x 17 x 40 mm fiber or cable version SR2 x 4 Dual 2 x 2 70 x 17 x 44 mm fiber version SR2 x 4 Dual 2 x 2 101 x 17 x 44 mm cable version Weight 90 g 110 g for SR2 x 4 Dual 2 x 2 1 Excluding connectors Include 0 2 dB typical IL for each connector 2 Excluding connectors 3 Drift of any channel relative to one assigned reference channel at 3 C deviation of ambient temperature over seven day period 4 Measured between two consecutive readings o
88. 8 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase SWEPT WAVELENGTH SYSTEM ENVIRONMENTAL MONITORING APPLICATION SWS EMA Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Ordering Information for SWS EMA Please contact a JDS Uniphase customer service representative to order a SWS EMA system For practical help on setting up an environmental test program visit www jdsu com instrumentation 174 If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc Windows is a registered trademark of the Microsoft Corporation National Instruments is a registered trademark of the National Instruments Corporation Telcordia is a registered trademark of Telcordia Technologies Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection wi
89. 8 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Polarization Mode Dispersion Emulator PMD Series Key Features High accuracy generation of PMD Repeatability of 0 02 ps PE3 emulation range gt 125 ps PE4 emulation range gt 250 ps GPIB and RS 232 remote control Applications The JDS Uniphase Polarization mode dispersion PMD Emulator produces a Testing PMD effects on systems controlled amount of differential group delay DGD It is used for fiberoptic Calibration of PMD measuring equim systems testing calibration of PMD measurement instruments and PMD sensitivity measurements in high speed optical transmission systems Safety Information The instrument separates the incoming light into two discrete polarization Complies to CE requirements plus UL3101 1 paths One of the paths passes through an optical delay element the other and CAN CSA C22 2 No 1010 1 through a matching attenuator and they are recombined at the output of the unit The optical delay element allows precise control of the time delay between the two polarization state paths the DGD The state of polarization at the output of the instrument is not controlled The emulator is a programmable instrument that can be controlled from the front panel or by the GPIB and RS 232 interfaces 143 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase eS POLARIZA
90. 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Switch Selection Guide yA Zi Amaaan es a 82 Ultra low loss Matrix Switch Polatis Switch series JDSU Uniphase is the worldwide distributor of the new ultra low loss matrix switch from Polatis Ltd Polatis switch series is a range of fully non blocking optical switch units based ion patented Micro Actuation and Sensing System MASS technology The switches ate available in both asymmetric and symmetric formats ranging from 4 to 32 in steps of 4 This series of switches are also available in reconfigurable single mode and multi mode up to 16 x 16 at present versions The ultra low insertion loss low PDL fast switching speed excellent repeatability protocol and bit rate independent dither free alignment and high security makes this switch ideal for applications ranging from test and measurement RF over fiber switching automated patch panel video distribution captive office automation high power laser source switching etc This series of switches is available in both 1U 2U tray and module NY Pages 101 and 103 Large Channel Count Switch Module SKB lt p co Rae The SKB 1 x N controllable switch module up to four independent 1 x N optical switches with configurations of up to 100 chann all and rugged the switch is designed to be used in embedded applications It is availahf 1 gle mode and multimode versions and has several features
91. 83 Rev 004 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION MAP Tunable Grating Filter D M Zi Tunable Grating Filter i TB3 0 25 nm For stand alone applicationg O the MAP Tunable Grating Filter may be used as a benchtop Applications Spontaneous emission suppression Amplifier characterization Up to 1 W of input power gt BER testing Tunable laser based testing Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Key Features Narrow bandwidth Low polarization dependent loss PDL lt 0 3 dB e Wide wavelength range 1420 to 1630 nm High power input 1 W The Multiple Application Platform MAP Tunable Grating Filter Cassette is a tunable bandpass filter that offers continuous wavelength tuning from 1420 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 Three options are available 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 wi
92. A 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase OPTICAL DELAY pecirications Parameter HD3 HD4 Wavelength range 1250 to 1700 nm Optical delay range 85 to 85 ps 175 to 175 ps Optical delay accuracy 0 02 ps 0 5 of delay Optical delay resolution 0 002 ps nominal Optical delay repeatability 0 02 ps Insertion loss IL 15 to 15 ps 1 5 dB 30 to 30 ps 2 5 dB 50 to 50 ps 1 8 dB 100 to 100 ps 3 0 dB 85 to 85 ps 2 0 dB 175 to 175 ps 4 0 dB IL variation 15 to 15 ps 0 2 dB 30 to 30 ps 0 5 dB 50 to 50 ps 0 5 dB 100 to 100 ps 1 0 dB 85 to 85 ps 1 0 dB 175 to 175 ps 2 0 dB Return loss RL dB Polarization dependent loss PDL Extinction ratio nfaining fiber PMF version Fiber type gt 20 dB polgsi AON Single mode um fiber with bulkhead FC connectors SM or PMF Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption 100 V A maximum Control GPIB and RS 232 interfaces Operating temperature Storage temperature GW 0 to 40 C 40 to 60 C Humidity maximum 95 non condensing Dimensions W x H x D 21 2 x 8 9 x 35 5 cm 19 inch 48 26 cm rackmounting 2U high half rack width Weight read 0 ps at this point A different optimization point is a Sw k n a custom basis 4 Excluding connectors 1 The I
93. ATION BACKREFLECTION BANDWIDTH BI DIRECTIONAL BIT ERROR RATE BER BLOCKING BROADBAND SOURCE BBS CENTER WAVELENGTH COLLIMATING LENSES COUPLING EFFICIENCY CROSSTALK DARK MEASUREMENT DEGRADE DETECTOR DISTRIBUTED FEEDBACK LASER A source which exploits the spontaneous emission that occurs in an erbium doped fiber In general this signal is spectrally large and unpolarized A signal on which the amplitude and frequency can vary continuously with time The decrease of the average optical power in an optical system resulting from various types of losses measured in decibels Please see return loss The range of frequencies that may be handled by a N m A device that allows an optical signal to travel in ei HAgtioh The ratio of bits received in error to bits Q The complete attenuation of an opticahsi na A spectrally large source that ee al which contains a continuous range of frequencies Laser The central PAN velength defined by a peak mode measurement where the effective optical power reside The average of the two wavelengths measured at half amplitude points of the power Lenses RN light into parallel beams Th amp tficiency of optical power transfer between two components The ratio of undesired light leakage from one channel to another expressed in dB A measurement of residual current from a detector when there is no optical input The condition in which one or more of the requ
94. ATT ensures t 10de is not saturated Product Reference 4 4 is usually built from a discreet set of instruments The parts required for a modula cy are shown below Laser or TurNble Laser MAP DEB Laser Tap 3 dMCoupler 4 port MAP Utility Cems des JDS Uniphase uloscope external vendor Att nuators MAP Precision Attenuator 225 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Wavelength Devices Lasers Introduction The absolute wavelength is an important parameter for the design and operation of Dense Wavelength Division Multiplexer DWDM systems The wavelength is typically measured using an Optical Spectrum Analyzer OSA or wavemeter The OSA is a grating based instrument while the wavemeter is based on a Michelson interferometer _ OSAor DUT Wavemeter A red by taking a scan at the wavelength of interest If the unit is properly calibrated avelength and side mode suppression ration can be obtained The resolution of the OSA it the accuracy of the measurement For higher resolution lt 10 pm a wavemeter is us re should be taken to make sure the settings provide information on all side modes O Orc the measurement is what environment is the wavelength specified Most unit ey the wavelength in vacuum The difference between vacuum and air is about 0 4 oO Product References KS ers and OSAs are usually purchased as a complete solution OSA ve ndor Wavemeter rnal vendor co
95. B 1 6 dB 2 5 dB Total output power stability 0 02 dB Output isolation minimum 45 dB Operating temperature 0 to 50 C Storage temperature 30 0 60 C Humidity maximum 95 R Nondensing from 0 to 45 C Dimensions W x H x D 4 24x 39 5 cm Weight NE kg 1 Measured at 1550 nm at 23 C after one hour warm up 2 Flatness range 1529 to 1565 nm for 1550 model and 1526 to 1603 nm for 1560 model Qy Ordering Information For more information on this or other products and oN please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 2g aa and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPB 1E1550FP0 MAPB 1E Code Band Code Connector Code Output power 1550 C band 1527 to 1568 nm Type 0 50 mW output power for 1560 C L band 1525 to 1610 nm FP FC PC C band 20 mW for C L band FA FC APC 1 100 mW output power C band only UL is a registered trademark of Underwriters Laboratories Inc If the configurations available do All statements technical information and recommendations related to the products herein are based upon information believed to be not meet your p erforman ce reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase
96. BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Specifications SC and SCG Models Parameter Single Common Multiple Common Multiple Common C Configuration SC model only D Configuration E and F Configurations Typical Maximum Typical Maximum Typical Maximum IL SM 0 4 dB 0 7 dB 0 4 dB 0 7 dB 0 5 dB 1 0 dB SC with 3 and 4 inputs and SCG models 0 5 dB 1 0 dB 0 7 dB 1 5 dB MM 0 4 dB 0 7 dB 0 4 dB 0 7 dB 0 5 dB 1 0 dB SC with 3 and 4 inputs and SCG models 0 5 dB 1 0 dB 0 7 dB 1 5 dB RI SM standard analog 265dB 60 65 dB gt 65 dB dB 265 dB 60 dB MM standard analog 25 35 dB 20 30 dB 25 35 dB 3Q dB gt 25 dB 20 dB PDL SM 0 02 dB 0 05 dB 0 05 dB 0 03 dB 0 07 dB IL stability 0 03dB 0 05 dB 0 05 dB 0 03dB 0 05 dB Repeatability sequential switching 0 003 dB 0 005 dB 005 dB 0 01 dB 0 005 dB 0 01 dB random switching 0 01 dB 0 025 E 0 02 dB 0 04 dB 0 02dB_ 0 04 dB Crosstalk maximum SM 80 dB Maximum input power optical S 300 mW Lifetime illion cycles gt 10 million cycles on SCG Switching time one channel SCG model 300 ms 420 ms each additional channel SCG model 12 ms 20 ms Power supply 100 to 240 V 50 to 60 Hz Power consumption 100 V A maximum Control local and remote via GPIB and serial RS 232 interfaces Drivers for external switch modules four open collector drivers with maximum 100 mA
97. Code Description Code Connector Code Output Power 1552 C band Booster high power Type 0 Standard output power 1592 L band Booster high power FP FC PC 4 Booster high output power 1596 L band Mid span access DWDM FA FC APC 22 dBm available for OAB1 1598 L band Booster DWDM SC SC PC 6 Booster high output 1562 C L band Booster SU SC APC 24 dBm available fo 1564 C L band In Line Code Characteristics 0 unflattened Qy 2 Gain flattened G DWDM available for OAB1546 OAB1558 OAB1596 OAB1598 WN Standard Accessories N Part Number Description ED000899 A 00 Standard 19 inch ragkm gnt kit Optional Accessories O Part Number Description ED000899 A 01 Rackmount kit Japan UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any in
98. Connector Type Code Fiber Type um 1 850 FA FC APC 8 5 125 2 980 SU SC APC 7 9 125 3 1310 1 50 125 4 1480 2 62 5 125 5 1550 6 1625 8 1650 UL is a registered trademark of Underwriters Laboratories Inc 9 850 1310 7 1310 1550 All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any A 1550 1625 inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase Teserves the right to change at any ume without notice the design specitications unction Ht Or form OF its products described herein a 1480 1550 including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and H 1490 1550 the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders J 1490 1625 2005 JDS Uniphase Corporation All rights reserved 10109640 Rev 006 03 05 M 1310 1625 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU inst
99. DIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm CLASS 1 LASER PRODUCT IEC 60825 1 2002 Key Features Automated long duration testing capability e Bi directional testing e Multi channel operation e Multi wavelength versatility e Wavelengths include dense wavelength division multiplexing DWDM course wavelength division multiplexing CWDM or fiber to the home FTTH Tunable aN with filter also available PDL measu pability aDility add more tests while a runs atibility with many environmental chambers epeatability ra low RL to 65 dB optional oe Single mode SM and multimode MM capability Th ogren uses a combination of up to 4 internal Fabry Perot lasers a oroi source filter or an external source The light from any of these sources cl uted to either end of each device under test DUT in turn The power measures either the insertion loss IL through the DUTs in either direction or the backreflection from either end A polarization controller option can be added to enable PDL to be measured The OCETS software co ordinates the switches so that for each batch of DUTs a line created in the batch file will define any combination of wavelength direction and parameter choices Software flexibility is built in and multiple lines in the file can be defined to run any number of tests at any of the installed wavelengths on the batch of components mu
100. DUT Laser Ref Cal Troubleshoot Ref Cal Troubleshoot Path Block Measurement Method Jitter characterizations require specialized test and measurement equipment Less accurate techniques use the eye crossing histogram data recorded by an oscilloscope Equipment with phase controlled pattern generators use a combination of signal processing techniques and narrowband resonator phase detectors to record the phase error and transponders 210 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Intrinsic Jitter L ooo Standards TIA 526 15 OFSTP 15 Jitter Tolerance Measurement TIA 526 16 OFSTP 16 Jitter Transfer Function Measurement Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below Laser Source Modulator Attenuator with Tap Power Meter Oscilloscope with O E Reference Receiver Clock Recovery Pattern Generator MAP DFB Laser MAP Transmitter MAP Precision Attenuat MAP Power Meter external vendo MAP ey MAP Clock R y external or 211 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Linewidth ee moo Devices Lasers Introduction In transmission systems the laser linewidth sets the lower limit on the penalties due to dispersion The linewidth of the laser is measured during Continuous Wave CW operation Since the linewidth
101. Fiberoptic component testing and witches can be controlled using the front panel keys and a numeric pad or via measurement S System testing Research and development R amp D Mass reconfiguration of large numbers of inputs outputs with SCG series D configuration Connection of multiple wavelength sources to any one of a number of devices with SCG series F configuration Network monitoring Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 84 GPIB and serial RS 232 interface The SCG series ganged input switches allow a single switch instrument to replace multiple switch elements while maintaining low loss In this series of switches the inputs are ganged together in a particular sequence and are thus able to offer three different modes of operation The SB and SC series switches are available in four basic configurations C configuration is a single common input model D configuration provides simultaneous connection of a bank of input fibers to output fibers E configuration allows any input to be connected to any output while other inputs outputs are aligned to subsequent adjacent channels The switch is non blocking in this mode and other inputs outputs are aligned F configuration enables one of the inputs to be aligned with an output in a blocking sense with a result in reduction of available output channels and a low loss M x N blocking switch Operation of th
102. IBLE LASER RADIATION CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm 59 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP FABRY PEROT LASER a JDS Uniphase pecirications Single mode SM Parameter 980 nm 1310 nm 1480 nm 1550 nm 1625 nm 1650 nm Peak wavelength 980 20 1310 20 1480 20 1550 20 1625 20 1650 20 nm nm nm nm nm nm Spectral width FWHM lt 5nm lt 5nm lt 5nm lt 6nm lt 7nm lt 7nm Total power 0 dBm 3 dBm 3 dBm 3 dBm 3 dBm 3 dBm Fiber type Flexcor SMF 28 SMF 28 SMF 28 SMF 28 SMF 28 Modulation 0 2 to 20 kHz Stability 15 minutes 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 439 5 cm Weight X Multimode MM Cy Parameter 850 nm 10nm 1550 nm Peak wavelength 850 20 nm Q 1310 20 nm 1550 20 nm Spectral width FWHM lt 8 nm lt 8 nm lt 8 nm 6 dBm 6 dBm Stability 15 minutes Connector type FC PC FC APC Operating temperature 2 10 to 40 C 30 to 60 C Total power 3 dBm Modulation S 0 2 to 20 kHz 0 01 dB Storage temperature Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 0 5 kg Measured at constant temperature of 23 5 C After 30 minute warm up S Modulation duty cycle is adjustable f
103. Instrumentation Catalog Ao JDS Uniphase Our 20 years of industry leadership brings you award winning standard defi equipment Whether you tes Itimode fiber passive compone transmission subsystems JDS hase can help you create the conomical flexible and high p Qa optical test solutions for ing and R amp D Table of Contents Table of Contents 3 BENCHTOP INSTRUMENTS 127 Finding a Solution 4 Erbium Doped Fiber Amplifier 129 Instrumentation Technical Support 6 Programmable Attenuator 132 Manual Variable Attenuator 136 MAP 7 Stressed Eye Generator 139 MAP Selection Guide 9 PMD Emulator 143 Multiple Application Platform MAP 13 Optical Delay 145 Amplifiers Broadband Source 147 MAP EDFA 19 Attenuators METERS 151 MAP Precision Attenuator 22 Backreflection Meter 153 Electro optic Instruments Multichannel Backreflection Meter 155 MAP Multi Rate Electrical Clock 26 PDL Multimeter 158 and Data Recovery MAP 1550 nm Optical Transmitter 28 ENVIRONMENTA 163 MAP 850 nm Optical Transmitter f 30 PavitoKirental Test 165 MAP 1310 to 1550 nm Optical Receiver 32 MAP 850 to 1550 nm Optical Receiver 34 SWEPT W H SYSTEMS 175 Em lat rs ns SWS2000 177 MAP Polarization Controller 36 se ae ACCESQQRIES AND SUPPORT OPTIONS 185 ilters MAP Tunable Grating Filter 41 Meas BEC OURS TA I t Accessories 188 ee t tation Technical S t 189 MAP Power Meter 45 ee eee ical Training Course Overview 192 sources duct Discontinuance Cross Referen
104. L is optimized to be lowest at the center of travel The K ry set to 3 At a constant temperature 2 At 1550 nm and 25 5 C vai OS 5 Total of discrete reflections does not include distributed reflection in fiber Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample HD3 1SFA HE HD T Code Mode 3 HD3 170 ps range 4 HD4 350 ps range 1 Only with FC PC Code Connector Type UL is a registered trademark of Underwriters Laboratories Inc FP FC PC FA FC APC All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any Tmaccuracies Phe user assumes all risks and hability whatsoever in connection With the use Of a product or its application Miphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein connector type Code Fiber Type um including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products r herein are
105. LE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm Key Features One or two DFB laser s per cassette 1 5 nm of wavelength tuning range 10 or 20 mW output power 200 Hz to 400 kHz modulation 50 GHz wavelength spacing Single mode fiber SMF and polarization maintaining fiber PMF output available The Multiple Application Platform MAP Distributed Feedback DFB Laser Cassette is an excellent source for dense wavelength division multiplexing DWDM system testing A combination of DFB lasers may be used to create an ITU grid in which optical frequency represented by a DFB laser corresponds to the transmitter in the optical network The standard MAP DFB Laser can be selected to comply with the 50 GHz ITU grid in the C and L band 1527 to 1610 nm The lasers typically show a side mode suppression ratio of 40 dB and can be modulated internally from 0 2 to 400 kHz in square sinusoidal and triangular waves 52 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP DFB LASER a JDS Uniphase Specifications Parameter Specification Wavelength Range ITU grid C L band see Channel Code Grid Accuracy 0 03 nm Stability 15 minutes 0 005 nm Stability 24 hours 0 01 nm Tuning range 21 5 nm Resolution 0 01 nm Power Laser output 10 or 20 mW Laser power unce
106. Mel Code Number Fiber Type um 25 only of Devices 50 125 at 850 1310 nm micro optic 62 5 125 at 850 1310 nm micro optic 9 125 at 1310 1550 nm fused 1 4 0 0 H 7 0 Code Number 1 X 8 splitter coupler of Devices 1 8 0 0 1 7 0 MAPU 10 L1 o o Lo o 0 0 BE Code Connector Type Code Number of FP FC PC Bulkhead m FC APC Connectors SC SC PC 01 1 SU SC APC 02 2 03 3 04 4 05 5 06 6 07 7 09 9 10 10 78 Standard Accessories included If the configurations available do not meet with a blank MAP Utility your performance requirements please Cassette splice holders fiber contact our global sales and customer holders coupler mounts service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any ba c heuse me pd diability whatsoever in connection with the ofaprod Q p 03a A iD piph reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered
107. NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP TUNABLE GRATING FILTER Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPF 1GGP51FP MAPF 1G O 7 L Code Bandwidth Code PortType Code Connector Types o gt Cc Model C 0 11 nm 1 Bulkheads FP FC PC G Model G 0 25 nm FA FC APC K Model K 0 55 nm SC SC PC SU SC APC Code Input Power 0 300 mW Qy P 1 W Models C and G only C Code Option sO 0 None Q 1 50 50 coupler 9 10 90 coupler X Peak search If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a prod
108. ONS INSTRUMENTATION MAP 1550 nm Optical Transmitter Key Features Complete transmitter solution High output power Leh i er e Wide frequency range Polarization maintaining fiber PMF output e Operational from 155 Mb s to 12 5 Gb s data rates For stand alone applications the MAP 1550 C nm Optical Transmitter may be used as a benchtop Applications The Multiple Application Platform MAP 1550 nm Optical Transmitter Receiver testing S Cassette is an externally modulated 1550 nm transmitter The transmitter Sensitivity characterization O provides complete control of the bias circuitry and low chirp operation It also Load generation includes the required modulator driver Bit error rate BER testing The transmitter can be used for applications such as testing of receivers and System testing transceivers By combining the transmitter with other MAP cassettes including switches and attenuators compact test facilities can be easily Safety Information assembled This optical source cassette when installed in the MAP chassis complies to CE requirements The radio frequency RF input path includes an automatic gain controller plus UL3101 1 and CAN CSA C22 2 No 1010 1 AGC amplifier making the optical output waveform extinction ratio meets the requirements of Class 3B in standard independent of input drive level over its specified range IEC 60825 1 2002 and complies with 21 CFR 1040 1 except d
109. PC FC APC Operating temperature 10 to 40 C Storage temperature GW 30 to 60 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 0 5 kg 1 After 30 minute warm up 2 Measured at constant temperature of 23 5 C 3 Measured at full power Ordering Information For more information on this or other Q gt roducts and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPB 1L057FP MAPB 1L C If the configurations available do not meet your Code Output Power Code _ Connector Type performance requirements please contact our 0 Standard FP FC PC i FA FC APC global sales and customer service team to discuss the potential for specialized solutions Code Wavelength nm UL is a registered trademark of Underwriters Laboratories Inc 1 850 Code Fiber Type um 3 1310 1 50 125 All statements technical information and recommendations related to the products herein are based upon information believed to be 5 1550 2 62 5 125 reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any 9 850 1310 inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its a lication JDS Uniphase r
110. PDL the equations are used with PDL 10x Log a 10x Log exception that the variables are amak Mot 4m m Mmo _ arrays of data as a function of wavelength Standards IEC 61300 3 29 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Extinction Ratio Cross Polarizer Method Devices Polarization maintaining components and jumpers Introduction Polarization maintaining devices control the evolution of the polarization state in a device Through the use of Power Meter PM fiber the polarization orientation of the light is well defined with respect to the access of the fiber Problems can occur when the light is not well aligned with the polarization maintaining access of the fiber For example in polarization combiners light in the wrong polarization state is not combined but is lost Tunable Laser or Broadband Polarization Polarizer Power Noise Controller Bur Meter Source Measurement Method The source light Kone laser source or a broadband noise source is connected to a polarization controlle t includes a polarizer The output is aligned with the desired axis of the fiber At the outp Qj polarizer is rotated and the amount of transmitted light is measured Since the polari Op ane fiber output should be linear there should be one position of the polarizer passes the light The minimum output should be with the polarizer rotated 90 degree The p
111. Port Type Code Latching 73 9 125 1310 1550 nm 1 Bulkheads E Latching 3 Pigtails 2 m long Code Number of Independent Switches 5 Five switch per cassette 6 Six switches per cassette Code Connector Type 7 Seven switches per cassette NC No connector piggail 8 Eight switches per cassette sc SC P Code Type of Switches SU 2 1x2 Ic 6S A 2x2 Ordering Structure for Option C Sample MAPS 2W16241FP masw JO O MA OO Code Fiber Type um Code Code Connector Type Code Latching 15 50 125 850 nm Switches all ports Blank Non latching 16 50 125 850 1310 nm 3 1x3 NC No connector 25 62 5 125 850 nm 4 1x4 pigtail 26 62 5 125 850 1310 nm 5 1x5 FR FC PC 73 9 125 1310 1550 nm 6 1x6 FA FC APC 7 1x7 SC SC PC 8 1x8 SU SC APC B 2 x 4 D type LC LC PC C 2 x 6 D type D 2 x 8 D type T 1x2 UL is a registered trademark of Underwriters Laboratories Inc X 2x2 Telcordia is a registered trademark of Telcordia Technologies Inc All statements technical information and recommendations related to the products herein are based upon information believed to be Code Number of Independent Switches Code Port Type reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any 7 One switch per cassette 71 Bulkheads inaccuracies The user assumes all risks and liability wha
112. REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Stressed Eye Generator Key Features 850 nm 1310 nm and 1550 nm wavelength options e Operational from 155 Mb s to 10 71 Gb s data rates e Adjustable extinction ratio Four selectable data paths reference OMA internal BT filter or external filter e Accepts sinusoidal amplitude interference inputs Front panel LCD or GPIB control Applications The JDS Uniphase Stressed Eye Generator provides a cost effective IEEE Std Manufacturing and R amp D receiver testin 802 3ae Stressed Eye reference for manufacturing and research and including 10 Gb s Ethernet and Fibg C 1 development R amp D compliance testing This optical transmitter can operate Manufacturing and R amp D DatacomMigcom with data rates ranging from 155 Mb s to 10 71 Gb s and provides adjustable reference transmitter extinction ratio control and selectable inter symbol interference paths Dispersion penalty testing The Stressed Eye Generator accepts sinusoidal interference rates from 2 0 GHz System testing to 0 1 GHz All features are accessible via the front panel no PC required or PEEP E EE A remotely by GPIB with SCPI compatibility Complies to CE requirements plus UL3101 1 The Stressed Eye Generator is available at 850 nm 1310 and 1550 nm wavelengths and CAN CSA C22 2 No 1010 1 Meets the requirements of Class 1 1310 1550 nm and C
113. S Non latching Default channel for non peration Electrical interface Qi include e 2x12 male hi the side D Configuration SQ switch shown with OFF position option The 2 x N configuration allows for mass reconfiguration of optical paths It provides simultaneous connections of 2 inputs to a number of outputs 119 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase FLEXIBLE SMALL CHANNEL COUNT SWITCH MODULE Dimensions 254 a SIDE MOUNT VERSION SHOWN 43 168 69 8 2750 60 235 57 9 2280 H 17 0670 128 502 6 0 235 6 4 250 TYP 22 1 868 zs 254 1 001 L937 9 0 355 nen KO 57 9 2 280 lt L 3 5 137 TYP O zoun R 69 8 2 750 L Pasua BOTTOM MOUNT VERSION SHOWN Mounting hole ed r 04 0 159 thru Ht notas c 7 1 280 5 4 4 4PLS N J C 120 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase FLEXIBLE SMALL CHANNEL COUNT SWITCH MODULE Specifications Parameter Specification Wavelength range Single mode SM or Multimode MM 1270 to 1670 nm MM only 850 to 1350 nm Fiber type SM 9 125 um MM 50 125 um 62 5 125 pm Fiber jacket size 900 um fiber 3 0 mm cable Configuration 1x3tol1x8 Dual 1 x 2 2 in
114. S 1 LASER PRODUCT EE EE ER DWDMs fiber Brass gratings EBGs are circulators switches attenuators couplers and other devices for which high test accuracy and optimum production speed are crucial 158 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase POLARIZATION DEPENDENT LOSS MULTIMETER Continued Two models are available a single internal laser source model and a dual internal laser source model The internal lasers available for the single internal laser source are 980 1310 1480 1550 1625 or 1650 nm The dual internal laser sources available are 1310 1550 1550 1625 1550 1650 1480 1550 nm Other accessories such as detector adapters and hybrid jumpers are also available 159 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com POLARIZATION DEPENDENT LOSS MULTIMETER a JDS Uniphase Specifications Parameter PS30 X 0 and PS36 X 0 Models PS3 X 20 Models Built in laser type Fabry Perot 1310 1480 1550 1625 1650 10nm 980 10nm Fiber type 9 125 um single mode SM 5 125 um Flexcor 1060IEC 61300 3 12 Polarization dependence of attenuation of a SM fiberoptic component matrix calculation method Polarization dependent loss PDL and average loss measurements ALM Resolution 0 01 0 001 or 0 0001 dB Optimization 1550 nm 1310 nm 980 nm Absolute accuracy PDL 960 to 1
115. S Uniphase manufactures unique mete s capable of testing critical characterization para neters such as insertion loss IL return loss R _ o ba kreflection and polarization dependent loss PDx Our precision built backreflection meters multichannel backreflection meters and polarization dependent loss multimeters form an essential part of any testing solution JDS Uniphase Backreflection Meters are measurement instruments for single mode or multimode testing These meters are extremely stable due to their superior optical design The Backreflection Meter is ideal for connector manufacturing testing due to its compact size and An integrated optical switch distinguishes the Multichannel Backreflection Meter The switch is included in the meter calibration so that the RL measurement range of 75 dB is maintained The meter is an excellent choice for high volume production testing where there is a mix of connector types It is ideal for testing multiple connector port devices splitters and ribbon cables The JDS Uniphase PDL Multimeters simultaneously measure PDL and IL in less than two seconds and also measure RL The PDL and IL are calculated using the Mueller method standardized under IEC 613 00 3 12 the ideal the manufacturing of PDL sensitive components such as which makes multimeters for isolators dense wavelength division multiplexers DWDMs fiber bragg gratings FBG optical iai tedred isle hati circulat
116. S Uniphase oss opnca smuren Single channel and multichannel dense wavelength division multiplexing DWDM capabilities RS 232 remote control S G os Applications Th Q Erbium Doped Fiber Amplifier EDFA amplifies optical signals Pre amp booster in line amplifier e EDFA window 1528 to 1610 nm Through optimization of emulation a jer gain noise figure and saturated output power the EDFA will expand Dense wavelength division multiplexing r test capabilities in systems components or sub assembly manufacturing DWDM transmission for multichannel S as well as research and development R amp D environments applications The amplifier incorporates a unique design to produce maximum signal gain ee SONET SDH systems for single c and saturated output power in the 1550 and 1590 nm test bands while applications minimizing noise figure It features a user friendly front panel housing an LCD displaying input output power current control and an optical interface Safety Inf ti hi KARREN The amplifier is offered in C band L band and C L band versions and pre Complies to CE requirements plus UL3101 1 amplifier booster or in line amplifier configurations and CAN CSA C22 2 No 1010 1 NaN Meets the requirements of Class 3B in The Benchtop models provide specialized variants and optical performance not standard IEC 60825 1 2002 and complies available in the Multiple Application Platform MAP line Additional EDFA w
117. SCG switches allows replacement of multiple switching elements in a test and measurement set up with a single switching element while maintaining low losses All the switches in these series are available in there different configurations D E and F making them the most flexible switch platform with superior p rf grance in the market The performance configuration and customization flexibility and port AO sure of these switches are suitable for a wide range of applications including fiber opti ON t Gnd system testing remote fiber sensing and monitoring R amp D measurements Gy s and other specialty applications in telecommunications military and fiber sensingNQbse series of switches are well known in the market for their very high levels of repeatability ry low optical losses making them ideal for repeatable precision device testing Single mode C imode versions of the switches are available Page 84 WN 2 X N Compact Matrix Switc Qr SMM series The SMM series switcj act 2 x N matrix switches module utilizing newly developed actuator mechanics The uni stn of this switch allows for a very small 2 x N matrix with up to 28 output trix or semi matrix connection capability Each SMM module is capable of ent 2 x 28 optical matrix units which can be custom integrated with additional p larger 2 x N assemblies N up to 120 channels in a compact footprint The SMM series 0 ches is the first compact matrix to offer very short and low loss
118. SE E E T S E Tunable Laser x Z y O y ea n a a Power Meter y af SA A A Switches of vA y of of M EE EEE E E E S E E E E E EN E E aaant yo y y y 4 Cy Y veggblo Dadis EDFA Polarization Controle ee a aE e n e a n Couplers and Splitters NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP Selection Guide MAP EDFA ee Available in six configurations pre e amplifier booster booster high power Z mid span access booster in line and A 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 Page 19 MAP Multi Rate Electrical Clock and Data Recovery A cost effective clock and data recovery reference for electrical datastreams at 10 Gb s rates The internal clock reference provides five selectable data rates SONET SDH std FEC 10 Gigabit Ethernet and Fibre Channel o MAP 850 nm Optical Transmitte name A directly modulated Kase transmitter The t AT rovides a ey cost effective opti uree for 850 nm 10 Gigabit Ethernet d Fibre Channel applications Page 30 MAP 850 to 1550 nm Optical Receiver CE A PIN based linear receiver which serves Ms as a cost effective optical reference at 10 aad Gb s data rates Ideally suited for 10 Gigabit Ethernet and Fibre Channel applications Analog and limited differential outputs Page 34 Page 26
119. Storage Temperature 40 to 70 C Q connect Extended Environment lt 95 RH non co F FC Cc SC Qalificatin Designed to meet T ST Polish Nommal Environment EN60950 S U UPC P PC Qalificatia Desi to A APC Extended Environment Telco R63 amp GR1O73 Fibre EN60950 1 Single mode 9 125um 8 Multimode 50 125um graded index 0 20NA 1 All parameters are measured excluding comectors at 1550nm and 20 C with an 9 Multimode 62 5 125ym graded index 0 28NA unpolarised source after themel equalisatim unless stated Interface 290 less than specified value and no value more than 10 greater than specified E Ethemet amp RS232 gt Measured as per Telcordia GR 1073 CORE section 4 2 11 G GPIB Ethemet amp RS232 Measured using 3 patchcord method as defined in TIA EIA 526 14A Protocol 5 witch will qoerate on dark fibre Multimode options available up to fibre cants of 16x16 Voltage yp B Battery 48V A America 110V U UK 240V E Europe 220V Environmental N Nomal FOR MORE INFORMATION E Extended Customisation 1 1 1 i S Standard For more infomtim this or other products ad their Fe R aailadility please omtact your local JDSU Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and sales jdsu com Copyright 2005 Polatis Ltd All ri ts reserved All informaticn in this damet is cl provided for informational purposes only and is subject to change without notice ol
120. Switching time one channel 300 ms each additional channel 12 ms Power supply AN 100 to 240 V 50 to 60 Hz Power consumption Q 100 V A maximum Control local and remote via GPIB and serial RS 232 interfaces Drivers for external switch modules Operation temperature 74 four open collector drivers with maximum 100 mA sink current 0 to 55 C Storage temperature 40 to 70 C Humidity maximum 95 RH from 0 to 55 C non condensing Dimensions W x H x D 21 2 x 8 9 x 35 5 cm with rackmount kit optional 48 3 x 8 9 x 35 5 cm Weight 3 75 kg RL specification based on 1 m pigtail length N Dw e Ww N e Please specify part number when ordering if needed 86 Values shown for 62 5 um diameter maximum fiber core Measured between two consecutive readings over 100 cycles ED000899 A 00 standard rackmount kit ED000899 A 01 Japan rackmount kit Requires two kits to mount two units side by side Analog version available on one and two input SB model switches C and D configurations Excluding connectors All optical measurements taken after temperature has been stabilized for one hour at ambient room conditions Drift of any channel relative to reference channel at 3 C deviation of ambient temperature over a seven day period NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase
121. TILITY Specifications Parameter Specification Single mode SM splitters couplers fused 1x4 type 1 x8 type Fiber type 9 125 um Wavelength 1310 1550 nm Insertion loss IL 8 0 dB 11 5 dB SM taps couplers fused 1 99 10 90 30 70 50 50 coupling ratio coupling ratio coupling ratio coupling ratio Fiber type 9 125 um Wavelength 1310 1 50 nm IL lt 24 0 1 2 dB lt 11 8 lt 13 lt 6 5 lt 2 4 dB lt 4 1 dB Multimode MM taps couplers micro optic 10 90 50 50 coupling rate S coupling ratio Fiber type Ti or 62 5 125 um Wavelength 850 1310 nm IL lt 11 8 dB lt 4 1 dB General Optical power handling Number of slots Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight G 300 mW Ca lt 10 kg 77 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP UTILITY Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com MAP Utility Cassette with Built in Splitter Coupler Sample MAPU 1SFP12103700 MAPU 1S Blank MAP Utility Cassette Sample MAPU 10FP04000000 Code Connector Type FP FC PC FA FC APC SC SC PC SU SC APC Titty N 1 X 2 tap coupler
122. TION MODE DISPERSION EMULATOR pecirications Parameter PE3 PE4 Operating wavelength range 1250 to 1700 nm Polarization mode dispersion PMD emulation range 30 to 125 ps 50 to 250 ps PMD emulation accuracy at 0 ps setting 0 1 ps PMD emulation resolution 0 002 ps nominal PMD emulation repeatability 0 02 ps PMD emulation relative accuracy 0 02 ps 0 05 of PMD Insertion loss IL 30 to 0 ps lt 3 0 dB 0 to 30 ps lt 2 5 dB 30 to 125 ps lt 3 0 dB 50 to 0 ps lt 4 0 dB 0 to 100 ps lt 3 0 dB 100 to 250 ps lt 4 0 dB Polarization dispersion loss PDL 30 to 0 ps lt 0 5 dB 50 to 0 ps lt 1 0 dB 0 to 30 ps lt 0 2 dB 30 to 125 ps lt 0 5 dB 0 to 100 ps lt 0 5 dB 100 to 250 ps lt 1 0 dB Return loss RL dB IN OUT fiber type single mode SM9 fier with bulkhead FC connectors Input voltage Q 0 V AC 50 to 60 Hz Power consumption 00 V A maximum Control GPIB and RS 232 interfaces Operating temperature 0 to 40 C Storage temperature 40 to 60 C Humidity GW maximum 95 non condensing Dimensions W x H x D 21 2 x 8 9 x 35 5 cm 19 inch 48 26 cm rackmounting 2U high half rack width Weight 4kg 1 At 1550 nm and 25 5 C Qy 2 At constant temperature 3 Excluding connectors Ordering Information For more information on this or other products and thei
123. TOR a JDS Uniphase Specifications Parameter 1300 1550 nm 830 1300 nm Attenuation range 65 60 dB 50 40 dB Maximum insertion loss IL Single mode SM lt 3 0 dB lt 7 0 dB Multimode MM 50 125 um lt 3 2 dB lt 4 2 dB MM other lt 3 9 dB lt 4 9 dB Return loss RL SM analog gt 60 dB MM 50 125 um 35 dB MM 62 5 125um dB Display resolution 0 1 dB Repeatability 0 1 dB Polarization dependent loss PDL 2 lt 0 1 dB Recalibration period recommended 2 years Battery lifetime gt 6000 hours Operating temperature eo 0 to 50 C Storage temperature 40 to 60 C Maximum optical input power 0 PW Attenuation accuracy os 0 5 dB maximum 95 RH from 0 to 50 C Humidity AN Dimensions W x H x D Q 11 5 x 6 x 12 5 cm Weight j 0 82 kg 1 Including 0 2 dB for each connector 2 Measured at 25 C using unpolarized light at either calibratio velen 3 Excluding connectors 4 With continuous display use O 5 A Low Battery message is displayed when battery Ng facement is required 6 9 V lithium battery 137 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MANUAL VARIABLE ATTENUATOR Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at
124. TRUMENTATION a JDS Uniphase MAP Precision Attenuator Key Features Low insertion loss IL lt 1 5 dB Low polarization dependent loss PDL 0 05 dB Mapas e Wide wavelength range EL ean High return loss RL 60 dB smus BEAM enasien For stand alone applications the MAP Precision Attenuator C may be used as a benchtop KY Applications The Multiple Application Platform MAP Precision Attenuator is a high Dense wavelength division multiplexing resolution wide wavelength range attenuator used in applications such as DWDM channel equalization u O analog systems and high bit rate digital systems The attenuator is built on 128 channel controller address proven industry leading technology for maximum reliability and performance Amplifier characterization Many configurations are available single or dual device per single width Bit error rate BER testing cassette single mode SM or multimode MM fiber four standard connector Precise optical power control 0 01 dB types and tap option or in line power monitor feature The power control Loss simulation in DWDM fiber links option can function as an in line power monitor Receiver and transmitter testing Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 22 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu
125. U WEBSITE www jdsu com Ad JDS Uniphase SWEPT WAVELENGTH SYSTEM ENVIRONMENTAL MONITORING APPLICATION SWS EMA Swept Wavelength System Environmental Monitoring Application SWS EMA Series Key Features Automated long duration testing capability Multi channel operation up to 160 channels C L and S band range SWS transmitters can be used Very high wavelength resolution 1 pm High wavelength accuracy 2 pm High repeatability PDL measur apability ti channel dense wavelength division DM devices Safety Information S This reliability test system combines the excellent repeatability and reliability of Complies to CE requirements plus TY JDS Uniphase switches with the high wavelength resolution and stability of the and CAN CSA C22 2 No 1010 1 The ser SWS The SWS uses a tunable laser The receiver which is wavelength source in the Source Optics Controller synchronized records the power transmitted by each device under test DUT SWS20010 is a class 1 laser The Tunable Laser in turn at 3 pm intervals Two levels of power referencing ensure that short and Source SWS17101 is a class 3B laser Both are long term optical power fluctuations or drift do not compromise the classified per IEC standard 60825 1 2002 and measurements comply with 21CFR1040 10 except deviations per laser Notice No 50 July 2008 A polarization controller can be added to enable PDL measurements to be made by Mueller Matri
126. UEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Small Channel Count Switch Module SW Series Applications Incorporation into customized switch assemblies required for test and me Gad applications Network monitoring and testing Sensor switching Source detection selection R amp D Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 110 Key Features 1x1 1x2 and 2 by pass modes e Compact size e LowIL High return loss RL Direct or TTL control of switching High repeatability over a broad range of environmental conditions e Available in MM The JDS Uniphase Small Channel Count Switch Module SW series is used for incorporating customized test assemblies and specialized applications operating multiple source measurement instruments such as optical spectrum analyzers wavelength meters and power meters This high performance switch is suitable for system trial applications where monitoring testing and routing are required Other applications include sensing calibration reference research and development R amp D In operation the switch connects the optical channels by redirecting the optical signal into a selected output fiber This action is achieved using optical prisms driven by a high precision non latching mechanism and activated by electrical contr
127. WDM channel testing O varying channel counts and latching modes Amplifier characterization The switch redirects input light by an optical prism or mirror into a selected Bit error rate BER testing output channel The switch is bidirectional transparent to signal format Signal routing available in both single mode SM and multimode MM versions as well as latching or non latching modes Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Special density and functionality cassettes can be made available on a custom order basis 69 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP SMALL CHANNEL COUNT SWITCH Continued Selecting a Switch To identify the appropriate switch selection use the table below Begin by choosing the appropriate switch configuration Further narrow the choice by selecting a fiber type and a latching configuration The number and letter for example 8 A indicates the maximum switch density per cassette and the applicable specification ordering table respectively The code column indicates the appropriate code in the Ordering Strugture SM SM MM Configuration Code N Latching Non latching 1x2 2 8 A 1x3 fl 2 C 2 C 1x4 Qy 2 C 2 C 1x5 2 C 2 C 1x6 2 C 2 C 1x7 S
128. able or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase SEDIR Sesi eied PENU E E S O tes Mcoes including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109641 Rev 07 03 05 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU INSTRUMENTATION LITERATURE REQUEST instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Polarization Dependent Loss Multimeter PDL Series Key Features Uses the Mueller method Rapidly changes from PDL and IL to RL measurements e Measurements take only a few seconds Displays IL and PDL simultaneously 3 m JOS Uniphase e939 muirmeres External tunable source capability GPIB and RS 232 remote control Integrated PDL standard source Applications The JDS Uniphase Polarization Dependent Loss PDL Multimeter is the fastest Passive component qualifications AN and most accurate multi
129. ackmount 48 x 13 x 38 cm 7U 19 inch rackmount 48x31x61 cm 14U 19 inch rackmount 48 x 62x61 cm Weight 15 kg 3U 45 kg 7U 75 kg 14U 1 All optical measurements taken after temperature has be n stabilized for one hour at ambient room conditions 2 All specifications referenced without connectors 3 RL specifications based on 1 m pigtail length 4 Measured between two consecutive readings over 100 cycles 99 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE MATRIX SWITCH AND RECONFIGURABLE MATRIX SWITCH Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SG07142 27F000SC SG LJ 2 T LJ L Code Number of Ports Code Fiber Type um Code th Code Connector Type 02 2 channels 7 9 125 eter FP FC PC 1 50 125 001 FA FC APC 16 16 channels 2 62 5 125 00 3m SC SC PC i 4 100 140 m SU SC APC 48 48 channels 00 9m NC No connector RM Reconfigurable Q Not applicable Code Wavelength Qy bulkheads only Range n Code Number of Ports F 1270 t 02 2 channels Q 8 only B 7 M only 16 16 c
130. acy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21031273 Rev 006 03 05 68 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION MAP Small Channel Count Switch Key Features gt Low insertion loss IL lt 0 7 dB Low polarization dependent loss PDL 0 08 dB 4al Switch A sw High return loss RL gt 55 dB Up to 8 switches per cassette e Available in latching or non latching modes For stand alone applications the MAP Small Channel Count Switch may be used as Qy a benchtop Q Applications The Multiple Application Platform MAP Small Channel Count Switch is a Dense wavelength division multiplexing single switch cassette that is able to accommodate a number of switches with D
131. age 118 A Custom Switch Assembly SA Series C co The SA series of switch assemblies typicall a combination of relay precision stepper motor optical switches splitters and attenuat irect drive lines can be pre configured to operate in groups providing individual switch fong The SA unit is designed to connect fiber optic input channels to any of N output ch a wide variety of configurations A unique easy to use local and remote user interfac ides simple control of the technology Page 124 83 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Benchtop Rackmount Programmable Switches SB SC SCG Series Key Features SB and SC series SB series can accommodate up to 48 channels and offer up to two input channels SC series can accommodate up to 180 channels and offer up to four input channels Low IL 0 4 dB typical Excellent repeatability 0 003 dB typical High return loss QL gt 65 dB typical GPIB and N ote control SCG se Offer up to 45 input channels and 90 output channels nput reconfiguration possible WN IL 0 5 dB typical for D configuration Qy High RL gt 65 dB typical C Excellent repeatability 0 005 dB typical sO Replaces multiple switch elements with one switch instrument Applications Q JDS Uniphase SB SC and SCG series of Benchtop Rackmount Programmable
132. ager to explore new ideas and opportunities They may range from simple product ements to new product concepts We have confidence in our product breadth but ar ly driven to continue to find new ways to add value to your test and measurement applic d Contact Us 4 Look for the fOlowing note throughout this document It is your invitation to discuss specific O t needs with our application and product experts Request for Information Help us keep you informed Obtain additional information about the latest developments in fiberoptics quickly and easily Sign up for e mail or postal delivery of new product updates application notes datasheets or additional catalogues at If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Finding a Solution 43 JDS Uniphase Corporation Home Microsoft Internet Explorer Fie Edit View Favorites Tools Help Back gt amp A A Qsearch Favorites media A Br Bw S Address http www jdsu com x eco inks Gsnagt ps PRODUCTS MARKETS COMPANY NEWS INVESTORS CUSTOMER SERVICE CAREERS Product Finder ContactUs Search Site Map 4 JDS Uniphase Communications Components Communications Modules amp Subsystems Communications
133. ajor investment in both time and capital One of the most time consuming and possibly damaging activities is connecting the device to the test set Connectors may become damaged during multiple reconnections if proper cleaning procedures are not followed Switch Application M X N non blocking cross connect switches can be used to reduce measurement and reconnection time These switches allow any input to be connected to any output Thus multiple devices can be tested simultaneously without the need to reconnect Multiple short duration tests may be run on one device while a longer measurement such as Bit Error Rate BER is performed on another device SWS TX gt K H SWS RCV DUT with 7 Multiple gt PM Transmitt Connections and lt 5 Connector Types m OSA gt a X gt m BER Product References Cross connect switches are usually custom designed to the application based on JDS Uniphase SG Series Programmable Matrix Switches 229 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com CONTACT US North America toll free 1 800 498 JDSU 5378 Worldwide toll free 1 PN www jdsu com INSTRUMENTATION LITERATURE m instruments jdsu co All statements technical inform recommendations related to the products herein ve u sed upon information believed to be reliable or a owever the accuracy or completeness thereof is n ar teed and no respons
134. al power amon eral output fibers from a common input The extent to which a specified property hami feristic or parameter of a substance device or apparatus such as a fiber optic transmission sy memains fixed with the passage of time or with varying environmental conditions The time between the Kison of the switch stimulus to the instant of the settling of the active output of the switch A functional un hat has two stable states and changes to the opposite state and remains there each time a onaga is given NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Chromatic Dispersion Phase Delay Technique ee Devices Fiber fiber Bragg gratings Dense Wavelength Division Multiplexers DWDMs Erbium Doped Fiber Amplifiers EDFAs Introduction Chromatic dispersion is the variation in transmission time as a function of wavelength It is typically a concern for optical fibers and devices such as fiber Bragg gratings and narrow filters It occurs because all laser sources have a finite linewidth The absolute delay is not usually a problem but variations across the passband cause pulse spreading Tunable Laser 777 Modulator DUT Receiver Modulation Ni Os Difference Measurement Method The most co method involves measuring the variation in phase delay as a function of wavelength A un laser is used as a source so that the details of a device structure can be obtaine
135. ange nm F 1270 to 1670 Q 850 to 1350 MM only B 750 to 940 MM only Switch Output Limits Number of Maximum Outputs per Switch If the configurations available do not meet your performance Independent requirements please contact our global sales and customer Switches ais r service team to discuss the potential for specialized solutions Latching Non Latching 1 85 100 All statements technical information and recommendations related to the products herein are based upon information believed to be 2 43 50 reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any 3 22 25 inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase 4 22 25 reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109646 Rev 006 03 05 1 09 INSTRUMENTATION LITERATURE REQ
136. aracteristics of a cut off shifted single mode optical fibre cable ITU amp 655 Characteristics of a non zero dispersion shifted single mode optical fibre cable TIA 526 10 OFSTP 10 Measurement of Dispersion Power Penalty in Digital Single mode Systems Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below Reference Receiver MAP Receiver Clock Recovery MAP Clock Recovery Attenuator MAP Precision Attenuator Optical Switch MAP Small Channel Count or MAP Large Channel Count Switches Fiber Spans external vendor Dispersion Emulator external vendor Error Detector external vendor 202 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Extinction Ratio Devices Directly modulated lasers Fabry Perot FP Distributed Feedback DFB Vertical Cavity Surface Emitting Laser VCSEL modulators transmitters transponders transceivers Telecom Datacom line cards Optical Scope Eye ciaren LaserorDUT moduitoror ptc Qmrcai opica power Beee Of Panem DUT p Method Peagi TEE T l l DUT Ref Cal bl shoot Ref Cal Troubleshoot Path Block Introduction Extinction Ratio ER is representations of logic 1 and logic 0 t zero NRZ formatted signals the logic 1 is as light off However there is always so keep the directly modulated laser paffi Was of the average power o
137. arizer Method 219 Flexible Small Channel Count Switch Module 118 PaE i Custom Switch Assembly 124 Polarization Mode Dispersion Fixed Analyzer Method 221 Polarization Mode Dispersion Jones Matrix Method 222 Return Loss 224 Transient Response 225 Wavelength 226 Switch Applications Switch Application 1xN Switches 227 Switch Application Environmental Testing 228 Switch Application Multiple Application Testing 229 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Finding a Solution JDS Uniphase is committed to providing you with the strongest possible application support a commitment that goes beyond the operation of our products It extends to understanding the specifics of the measurements you are implementing We believe in learning from every customer interaction By combining your measurement experiences with ours and leveraging the flexibility and performance of our products Se AN deliver a more powerful solution gt N i a imi al is to find ways to optimize lt minimize your cost of ownership Working apital budget and simplify your development e reliability you need to keep your program or measurement performance reduce cycle tiy together we can create solutions that meet without compromising the me factory on track Our next generation products ar y your needs Throughout our history we have worked hard to listen to our custome e e
138. as the signal Also any source noise must be removed from the measurement Laser z Sources I ATT TAP Switch DUT Switch ATT OSA Power Meter Measurement Method The test set is aQ measuring the ratio of the output power at the Device Under Test DUT and the lossegf rough the switch paths and the loss before the Optical Spectrum Analyzer OSA The tap r meter are used to set the desired input power The measurement begins by setting thg ower to the desired value using the tap and power meter The source spectrum is then ured on the OSA The switches are then set and the output spectrum is measured The is calculated as the ratio of the output power to the input power The ASE power is then determined by interpolating the noise levels on either side of the signal This valu corrected for the source noise Psn Here h is Planka yp n is the optical frequency and Bo is the optical bandwidth 10 log Pase G Ps 1 GhvB G lt r IEC 61290 3 Optical fiber amplifiers Basic specification Part 3 Test methods for noise figure parameter NF dB ITU G 661 Definition and test methods for the relevant generic parameters of optical amplifier devices and subsystems Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below DEB Lasers MAP DEB Laser Switches MAP Small Channel Count Switch Attenuator MAP Pr
139. ase Corporation Other trademarks are the property of their respective holders specialized solutions 2005 JDS Uniphase Corporation All rights reserved 10109655 Rev 006 03 05 5 5 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION MAP DFB Laser Analog Modulation DFB Laser 4d i For stand alone applications the MAP DEB Laser may be used as a benchtop Applications CATV reference transmitter e Multitone receiver test Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm 56 q Key Features 10 mW output power 1 GHz of modulation bandwidth Very low second and third order distortion Multiple Application Platform MAP DFB Laser Cassette with Analog Modulation features 1 GHz of modulation bandwidth and low distortion for accurate CATV receiver testing The cassette features a built in laser bias driver and thermo electric cooler controller for optimal wavelength and power stability The radi
140. asers modulators PD PIN APD limiters transmitters receivers Introduction Jitter definitions include jitter tolerance jitter transfer and jitter generation Both jitter tolerance and jitter transfer are functions of the clock recovery circuits in the transponder line cards Transmitter module components fiber path and receiver module components contribute to intrinsic jitter Jitter can be visualized as the variation in eye crossing time and the distribution of eye crossings can be characterized as either root mean square RMS or peak to peak p p These two characterizations are expressed in units of time e g picoseconds or Unit Interval UI where 1 UI equals the bit duration The most prominent source of intrinsic jitter undersygteWn operation is pulse spreading by way of laser spectral width and chromatic dispersion handled by dispersion power penalty allocations in the standards Intrinsic jitter copprttidgs of the E O and O E functions are highly dependent upon the data pattern and are k ta pattern dependent jitter Ref E O Pattern Optical Optical Optical Power Reference Generator Laser Modu Q Attenuator Meter O E Scope i T A i Pattern Optical Optical Optical Power Reference Generator ee Q Modulator Attenuator Meter O E Scope DUT XPDR LC Pattern Optical Optical Optical Power Reference Generator Laser Modulator Attenuator Meter O E Scope 1 x i i i Pasasaan wee se che 1 EEA L10
141. at name are the switch connections and a specification file describing the measurements required and the acceptance limits for that output Complete flexibility is afforded with this scheme any output of any device can have different properties and be measured in different ways with different acceptance limits SYSTEM SETUP TEST INTERFACE TREND LINES LPS OVEN SENSOR 191 175 THz 191 975 THz 192 775 THz v TREND PRINT GRAPH m SAVE TO TEXT FILE R Absolute C Relative Typical Output View Showing Trend with Time q The Specification Manager is used to create one or more custom specification lists for the test to be undertaken The user selects appropriate specifications from a master list and can additionally customize any specification for the test The DUTs tested might have the same specification or different specification and might be used for the different outputs of different devices Each of the available measurement parameters see list can be modified to suit user needs the name can be adapted to suit local conventions Pass Fail criteria can be defined and wavelength or frequency and units can be chosen Available Measurement Parameters Include Actual center wavelength Offset of center wavelength from ITU Bandwidth at xdB threshold Effective bandwidth IL at actual center or on ITU e Flatness across passband Crosstalk left right or total PDL at actual ce
142. ation selection needs to be based on current C22 2 No 1010 1 requirements without compromising future requirements The MAP 2B00 and MAP 2M00 provide the most cost effective solutions for test sets requiring three or fewer cassettes and four to eight cassettes respectively In both cases future aer are poni by populating the empty slots if available MAP 2S00 as a slave The three chassis formats provide an endless number of configurations and numerous expansion paths 13 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MULTIPLE APPLICATION PLATFORM Continued MAP Master MAP 2M00 and Slave MAP 2S00 The MAP Master and MAP Slave are built on a fully modular architecture The main controller module power supply module keypad display module and remote interface module are all field replaceable thus making maintenance fast and simple The keypad display module and remote interface module of the MAP Master and Slave are interchangeable for rear mounting Handling and Em rackmounting are made easy by using the practical handles located at the front and back of each chassis When used bench the tilting feet hold the chassis at an optimal angle for monitor visand keypad accessibility Key Features C Front or back fiber conn 8 slot capacity e All modules Kigrplaceable pply sO ad display OOT l DDES a MERS NSO C TS C S MRR C E remote interface
143. atis Polatis Itd assumes no liability for actians taken based on information contained herein PROD 404 01 0 COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Large Channel Count Switch Module SKB Series Key Features Lifetime greater than 120 million cycles e Up to 100 channels e Up to 4 switches in a module Internal switches can be factory configured to create various configurations such as blocking MxN e Latching version available Queriable switch position and configuration Status and aler isters Highly custgmgeycofigurable to assist in swapping spareg Paineme channel order r based switches l IL 0 5 dB Ww better than 55 dB Compact package designed to accommodate standard and custom solutions e Printed circuit board or enclosure mountable Applications Xs JDS Uniphase SKB series controllable optical switch is designed to connect Remote fiber test systems RFTS a single optical channel to any of N channels It is the enhanced version of our Fiber network restoration legacy SK SP series switch modules and is the only stepper motor based switch Fiberoptic component test and me module available in this market with a lifetime greater than 120 million cycles Integrated module solution designed Each module can accommodate multiple 1 x N switches that can be internally integration into new products interconnected to provide various types of configurations such as blocking OEM applicati
144. avelength AN is the simplest PMD measurement method The tunable laser is a well polarized se S typically better than 30 dB of Extinction Ratio ER As the laser is scanned the a e the polarization state at the output of the Device Under Test DUT to change The pola iggWat the output converts the polarization rotation into amplitude changes The number aks and valleys in the amplitude plot determines the PMD The polarization controller at Qi is used to increase the amplitude of the peaks and valleys Another option for this Cnn is to use a broadband noise source and an optical spectrum analyzer W This method is limited with broad transmission characteristics The average PMD is given by where k is pling factor and Ne is the number of extremes The mode coupling factor is 1 for devic K coupling such as an isolator and 0 824 for long lengths of fibers lt as kNe start A stop at 2 start A stop C S Sta EIA Fiber Optic Test Procedures EIA 455 113 PMD measurement for single mode optical fibers by the fixed analyzer method IEC 61300 3 32 Basic test and measurement procedures Part 3 32 Examinations and measurements Polarisation mode dispersion for passive optical components Product References The parts required for a modular approach are shown below Polarization Controller MAP Polarization Controller Polarizer MAP Polarization Controller Power Meter MAP Power Meter Broadband Noise Source MAP Broadband Source
145. benchtop Applications The Multiple Application Platform MAP Variable Backreflector Cassette Transmitter receiver development and S provides precise levels of return loss RL to transmitters which allows O measurements of system sensitivity or system degradation as a function of testing Reflection testing for connectors backreflection Quality assurance acceptance testing When used with a transmitter receiver pair and characterization equipment Laser development and production the backreflector can be used to establish the magnitude of reflections that significantly degrade transmission system performance and to characterize the Safety Information problems they cause This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 The backreflector uses JDS Uniphase s linear attenuator prism and high 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 38 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP VARIABLE BACKREFLECTOR Continued attenuator input and E A reflected output N reflector a N attenuator input an 50 L z reflected output tap reflector Qy Figure 1 Optical configurations for the variable backreflecto
146. ce 194 MAP Broadband Source 49 lt MAP DEB Laser MAP DEB Laser Analog Modulation Q REPERENCE i ie Reference of Technical Terms 197 MAP Fabry Perot Laser d f MAP LED Source Test ts Measurement Re erence Guide be MAP Tunable Laser 64 Ch romatic Dispersion Phase Delay Technique 201 i Dispersion Penalty 202 Switches Extinction Rati MAP Large Channel Count Switch S 66 a aug 203 MAP Small Channel Count Switch 69 Eye ya 204 MAP RF Switch 73 Gan Patness ee Ae Generalized Bit Error Rate Measurements 206 Utility Passive Devices i ORL Pied Wavel h MAP Utility 76 nsertion oss Fixe avelengt 208 Insertion Loss Swept Wavelength 209 SWITCHES 79 ee a as Switch Selection Guide 81 ene Noise Figure Source Subtraction and Interpolation 213 Benchtop Rackmount Programmable Switch 84 Optical Gain 214 2 xN Compact Switch Matrix Module 93 Optical Modulation Amplitude 215 Programmable Matrix Switch and Reconfigurable Matrix Switch 95 Optical Signal to Noise Ratio 216 Optical Switch Module OSM 101 Optical Time Domain Reflectometer 217 Optical Switch Tray OST 103 so a y Polarization Dependent Gain 218 Large Channel Count Switch Module 105 T Polarization Dependent Loss Fixed Wavelength 219 Small Channel Count Switch Module 110 mee Polarization Dependent Loss Swept Wavelength 220 Ruggedized Small Channel Count Switch Module 114 ee ane Polarization Extinction Ratio Cross Pol
147. ckmount kit Included Optional MAP 2A10 Display LCD color VGA No VGA Display dimensions H x W 7x5cm 7x5cm Resolution 640 x 234 pixels Remote interface RS 232 GPIB Slot expansion 640 x 234 pixels RS 232 GPIB A Controls up to 7 slave chassis N A Controls up to 7 slave chassis External keyboard USB Keyboard Video output VGA Video input BNC Connector NTSC VGA output 15 pin D sub connector Safety interlock Fail safe hardware controlled Operating temperature 0 to 50 C Storage temperature Humidity oe 30 to 60 C lt 80 RH 0 to 40 C non condensing Dimensions W x H x D 3 24 x 52 37 cm 44 91 x 13 24 x 52 37 cm igh standard 3U high standard 19 inch width 19 inch width 22 5 x 14 8 x 43 0 cm 3U high standard 19 inch width Weight 14 3 kg 13 0 kg 8 6 kg 17 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MULTIPLE APPLICATION PLATFORM a JDS Uniphase Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com MAP Master Chassis MAP 2M00 MAP Benchtop MAP 2B00 MAP 2A01 MAP 19 inch Chassis MAP 2A04 MAP Safety Interlock Key MAP 2A02 MAP Power Supply Module MAP
148. completeness thereof is not guaranteed and no responsibility is assumed for any ina acies Theusera mesallrisks and Jiability whatsoever in connection with the use ofa prod grits application ID pipha reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21031268 Rev 006 03 05 6 5 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION MAP Large Channel Count Switch Key Features LowIL lt 0 7 dB Low polarization dependent loss PDL 0 04 dB e Wide wavelength range High RL gt 57 dB For stand alone applications C the MAP Large Channel Count Qy Switch may be used as KN a benchtop Qy Applications The Multiple Application Platform MAP Large Channel Count Switch Dense wavelength division multiplexing S Cassette is bidirectional and allows the connection of a common port to any DWDM channel testing O number of
149. ctive holders 2005 JDS Uniphase Corporation All rights reserved 10109654 Rev 006 03 05 48 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION Avoid capasure Invisible Laser Radiation is Emitted From this Aperture For stand alone applications the MAP Broadband Source may be used as a benchtop Applications Optical component spectral tests Systems compliance tests Optical measurement systems Sensor and imaging experiments Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT MAX 500 mw 700 1680 nm gt Key Features Flattened output power spectrum High output power density e High spectral stability Control and monitoring features The Multiple Application Platform MAP Broadband Source BBS Cassette combines the optical performance of the JDS Uniphase BBS benchtop instruments with the flexibility and modularity of the MAP Utilizing the latest advances in erbium technology the MAP BBS offers an amplified spontaneous emission ASE output that feat
150. d The ligfN ically modulated using a LINbO3 modulator The phase difference is measured using r voltmeter This approach can be used for both devices and fibers One issue with the Thus a lower modu ion frequency is that at 1 GHz the step size will be about 8 pm ency may be needed for some applications This method meas change in delay time using the following Du Da equation KA se measurement at the respective wavelength A 360 and fm the jon frequency Note it is assumed that the change in wavele ess than a 360 degree phase shift The dispersion is p At then g x the derivative of the change in time with respect to dh uke Standards EIA Fiber Optic Test Procedures EIA 455 169 Chromatic Dispersion Measurement of Optical Fibers by the Phase Shift Method EIA 455 228 Group Delay and Chromatic Dispersion Measurements in Single Mode Components and Devices by Phase Shift Method Product References Complete solutions are available for measuring chromatic dispersion or a set up can be built from individual parts The complete solution is available in the Swept Wavelength System SWS system The parts required for a modular approach are shown below Modulator MAP Transmitter Detector MAP Receiver Tunable Laser MAP Tunable Laser Modulation Source external vendor Phase Detector external vendor Agilent 8508 recommended 201 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com
151. dB Relative power accuracy 5 dB range 0 15 dB Backreflection range 0 to 75 dB SS 0 to 40 dB Relative backreflection accuracy 0 4 dB 0 7 dB Relative backreflection accuracy 5 dB range 0 3 dB 0 7 dB Absolute power accuracy 5 dB typical at 10 dBm Backreflection resolution 0 1 dB Power resolution 0 01 dB Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption 80 V A maximum 1 Depending on the measurement setup measurements with lower levels are possible at Sy 2 Reduced backreflection accuracy in the last 10 dB of range based on terminatiffn e lege Q the measurement setup measurements with lower levels are possible at i u s Depending on 3 Following the user calibration procedure at the recommended interv 4 For a typical application add 0 4 dB for readings between 60 between 67 and 72 dB Add 1 5 dB for readings between 72 an dBf nge onnectors with up to 8 MM or 12 SM fibers at i 0 8 dB for readings 75 dB Immediately after performing a dark measurement Add 0 1 dB between 0 and 3 dBm and in the last Add 0 1 dB between 0 and 3 dBm and in the la onan 5 mm Ge detector can accurately measure ribbon fib wavelengths up to 1600 nm 9 Measured at ambient temperature 3 C Not including 1650 nm source 156 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jd
152. dB Multimode MM 50 125um N A lt 2 2 dB MaB N A N A MM other N A lt 2 9 dB lt 3 9 dB N A N A Flexcor 1060 N A N A N A lt 2 5 dB N A Return loss RL SM N A gt 45 gt 45 dB N A N A SM analog gt 60 dB gt gt 60 dB N A gt 50 dB MM 50 125 um N A x gt 35 dB N A N A MM other N A Qr dB 2 30 dB N A N A Flexcor 1060 N A A N A gt 60 dB N A Wavelength dependence Ni 4 N A N A N A 0 05 dB 0 to 20 dB attenuation 1530 to 1625 nm IA N A N A N A 0 10 dB lt 20 to 30 dB attenuation Maximum optical input power 0 mW 200 mW 200 mW 200 mW 1W Recalibration period recommended 2 years Polarization dependent loss PDL 0 03 dB typical 0 08 dB maximum Beam block attenuation gt 90 dB Input voltage 100 to 240 V AC 50 to 60 Hz Power consumption 100 V A maximum Operating temperature 0 to 40 C Storage temperature 40 to 60 C Humidity maximum 90 up to 40 C Dimensions W x H x D 21 2 x 8 9 x 35 5 cm 19 inch 48 26 cm rackmounting 2U high Weight 4kg The attenuation range is a continuous function of wavelength At constant temperature wavelength and polarization state after half hour warm up Up to 60 dB of attenuation for SM and 45 dB of attenuation for MM Maximum specification at calibrated wavelength 15 nm Outside these wavelength ranges the typical accuracy is the greater of 0 1 dB or 0 003 dB dB Measured at 23 C with a laser source
153. dBm gt 2 0 dBm typical 50 nm 3 0 dBm gt 5 0 dBm typical peak 6 0 dBm typical Stability 0 05 dBm 1 hour N Repeatability 0 1 dB 1 hour Resolution 0 001 dB Flatness while scanning 0 5 dB over 110 nm 08 over 1 nm Spectral properties Line width coherence control off Line width coherence control on Side mode suppression ratio SMSR Amplified spontaneous emission ASE ratio Optical isolation Relative intensity noise RIN Fiber connector type Fiber extinction ratio Recommended calibration period Operating temperature 10 to 40 C Storage temperature 20 to 60 C Dimensions W x H x D S 8 12 x 13 24 x 39 5 cm Weight 4 5 kg 1 Measured at 25 C 1 C 4 Fixed power of 0 dBm 2 After 1 hour warm up 5 Measured at 1560 nm 3 After calibration Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP Tunable Laser UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be MAPL 1T1FA j peri reliable or accurate However the accuracy or
154. demarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21053775 Rev 003 03 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP Fabry Perot Laser Key Features Dual independent sources available in a single cassette Control and monitoring features Single mode SM Multimode MM output Internal external modulation For stand alone applications the MAP Fabry Perot Laser Qy may be used as a benchtop Qy Applications The Multiple Application Platform MAP Fabry Perot Laser Cassette consists Insertion loss IL of a Fabry Perot laser diode combined with a high performance laser driver Return loss RL O circuitry for optimal wavelength and power stability It features internal and Polarization dependent loss PDL external modulation capabilities and variable power control Cassettes can be Dense wavelength division multiplexin configured with two independent sources for maximum instrumentation DWDM test density Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 INVIS
155. dependent 1 x 2 s Duplex 1 x 2 2 x 4 D Duplex 1 x 3 2 x 6 D S Duplex 1 x 4 2 x 8 D Optical connectors FC PC FC APC SC PC SC A PC no connector Length 0 3 to 9 9 m 5 cm for s under 1 m 5 for lengths 1 m or greater Test orientation Standard Bi directional WV 121 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase FLEXIBLE SMALL CHANNEL COUNT SWITCH MODULE Specifications Parameter Single mode SM Multimode MM Insertion loss IL includes one FC PC connection 1 x3 1x4 Dual 1 x2 2x4 D lt 1 1 dB lt 1 0 dB 1x5 1x6 1x7 1x8 2x6 D 2x8 D lt 1 25 dB lt 1 15 dB Return loss RL excludes connectors selected port SM gt 55 dB selected port MM gt 30 dB Polarization dependent loss PDL SM only 1x3 1x4 Duallx2 2x4 D D B 1x5 1x6 1x7 1x8 2x6 D 2x8 D IL stability 1 hour O 0 02 dB 24 hours 0 05 dB Repeatability 1x3 1x4 Duallx2 2x4 D lt 0 01 dB p 2 0 005 dB 1x5 1x6 1x7 1x8 2x6 D 2x8 D lt 0 02 dB 0 01 dB Crosstalk isolation selected port to other ports Q7 lt 50 dB bi directional non selected to other non selected oe B lt 40 dB Optical input power 300 mW max Lifetime gt 10 million cycles Switching time 74 lt 20 ms Control interface Configurable TTL Operating voltage DC 5 0 V DC 10 at 100 mA 300 mA max d
156. dynamic range for 10 dBm at external input with the input fiber to the multimeter optimized for the most power for an external source present at the multimeter s front panel detector can reduce resolution and or accuracy 3 Output power is about 3 dB higher in RL mode than in power mode Therefore full RL range is obtained when the measured output power in power mode is 18 dBm NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase POLARIZATION DEPENDENT LOSS MULTIMETER Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample PS3650 25 PS3 7 0 2 ii Code Optical RL Code Light Source Code Optimized o gt 0 Without Wavelength nm Wavelength nm s wh 0 Without 2 980 2 980 3 1310 3 1310 S 1550 Qy 4 1480 5 1550 6 1625 7 1310 1550 Qy 8 1650 C A 1550 1625 Qy B 1550 1650 C 1480 1550 Qy H 14901550 o J 1490 1625 M 1310 1625 S 1 Only for models with a 980 nm internal source O 2 Standard The multimeter includes two FC APC connectors one at the OUT port and another at the IN port an FC detector adapter and detector cap for the front panel detector one FC APC FC PC test j
157. e Application Platform MAP Power Meter Cassettes The first is a power meter with a 3 mm InGaAs detector and the second is a power meter with 10 mm Ge detector 3 mm InGaAs MAP Power Meter The Power Meter is optimized for applications using single mode SM or multimode MM fiber to measure power levels from 80 to 10 dBm over the wavelength range of 800 to 1650 nm It features a high accuracy high linearity and extremely low polarization dependent loss PDL The MAP Power Meter Cassette with 3 mm InGaAs detector is available in single or dual configuration and comes with an analog electrical output for external monitoring The averaging time can be set as low as 100 ps for high speed applications For ultimate flexibility the detector heads were designed with the JDS Uniphase AC100 interchangeable detector adapters Detector adapters are available for six connector types as well as a fiber holder that permits bare fiber measurements please refer to the Optional Accessories section The cassette is supplied with an FC detector adapter as a standard accessory An optional integrating sphere capability to 33 dBm 2 W with decreased PDL to 0 005 dB 45 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP POWER METER 46 f Power Meter a Dual Detector Power Meter with an Integrating Sphere on Detector 2 10 mm Ge Power Meter Continued 10 mm Ge MAP Power Meter Thi
158. e SOM and an OMNI re isting Swept Wavelength System SWS2000 system can be used to oup delay GD and differential group delay DGD g test stations can still be used SWS OMNI adds to the SWS family of test systems and provides leading edge performance for fast all parameter testing for efficient engineering research and development R amp D and production testing operations SWS OMNI rapidly and accurately measures insertion loss IL polarization dependent loss PDL GD and DGD characteristics of a wide range of passive optical components and optical fiber using a dual channel receiver for higher throughput and lower cost testing The modular architecture of the SWS OMNI enables a user to add the SWS OMNI receiver to an existing SWS transmitter to provide a stand alone all parameter test station without the added expenditure of another tunable laser and wavelength meter These additional test stations are purchased at a relatively low incremental cost providing best multi station capital expenditure economics in the industry From phase and IL measurements SWS OMNI software calculates CD PDL GD and DGD as a function of wavelength or frequency Displayed data may be further analyzed on screen using markers or setup to automatically analyze the data in the parameter ranges defined This data can be exported for further easily develop custom software in LabVIEW Visual Basic or C a feature that is especially useful in a production
159. e and expense often required for off site training Time agy fi j b and travel expenses are virtually eliminated Our technical specialist will travel to aciifty and provide all aspects of our Instructor led course on site Limited class size will allo more opportunity for personal attention and one on one interaction with each member of the class If our standard training package does not address all of your needs we can customize our training to add topics of interest specific to your company Training i delivered in the comfort and convenience of your own facility are also an option Accreditation Upon completion of the JDS Uniphase training courses students are presented with a signed training certificate acknowledging that they have successfully completed the course Courses available but are not limited to the following OCETS Optical Component Environmental Test System SWS Swept Wavelength System 191 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Technical Training Course Overview Optical Component Environmental Test System OCETS Overview This course gives you the tools knowledge and confidence to carry out real world operation and analysis of passive component characterization using the OCETS With plenty of hands on practice and discussion this training course gives you theory in addition to introducing you to all the features of the hardware and OCETS software provided w
160. e relevant generic parameters of optical amplifier 9 d A a Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below DFB Lasers MAP DFB Laser Switches MAP Small Channel Count Switch Attenuator MAP Precision Attenuator Power Meter MAP Power Meter OSA external vendor Tap MAP Utility 205 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Generalized Bit Error Rate Measurements Devices Photodiodes PD PIN APD limiter threshold slicing optimization receivers transmitter laser bias optimization transponders transceivers and Telecom Datacom line cards Introduction Sensitivity and overload are optical input dynamic range characterization tests over which a maximum acceptable Bit Error Rate BER is to be achieved Standards define the receiver s BER performance under average optical power test data pattern and transmitter Extinction Ratio ER constraints BER measurements determine these input optical power limits The same test configuration building blocks also support transmitter and receiver optimization Transmitters with direct modulated lasers require proper laser biasing to improve ER as represented by improved BER Receivers use a limiter s threshold setting to convert the O E analog waveform back to a digital logic 1 and logic 0 waveform Avalgnche photo diodes APDs in particular have higher
161. ecision Attenuator Power Meter MAP Power Meter OSA external vendor Tap MAP Utility 213 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Optical Gain ma o Devices Erbium Doped Fiber Amplifiers EDFAs Semiconductor Optical Amplifiers SOAs Introduction A key parameter in the measurement of an optical amplifier is the signal gain This is the ratio of usable input power to usable output power One of the issues in optical amplifiers is that the amplification process produces noise in addition to the desired signal Laser R sauces AE H Switch DUT Switch ATT OSA Power S Meter Measurement Method The lasers sources a Distributed Feedback DFB or external cavity laser for single channel operation org of DFB lasers if multiple channels are to be measured The measurement begins by suring the power into the Device Under Test DUT using the power meter The attenuat settings can then be calibrated for a range of optical powers The output attenuator logey measured at this point This attenuator is used to keep the power at the input of the 1 Spectrum Analyzer OSA in its linear range d The device input is pa DUT is then insertewa utput trace is recorded on the OSA The output power and noise levels are meas a e gain is calculated The optical switch is used when multiple measurementsgare of one device e output attenuator and the trace is recorded on the OSA The
162. ector adapter requires AC120 MAPM 2P P req AC102 ST detector adapter AC330 33 dBm integrating sphere AC103 SC detector adapter AC112 MT ribbon cable adapter 10 mm Ge MAP Power Meter Code Detector Type Code Detector Code Detector Type s Performance Type 0 None AC114 MU detector adapter Part Numbers Description standard 1 3 mm InGaAs 1 3 mm InGaAs AC115 E2000 detector adapter AC400 Detector cap 2 10 mm Ge 2 10 mm Ge AC120 Magnetic fiber holder AC401 FC PC adapter requires AC121 AC402 MPO MTP adapter 1 Not applicable if a 10 mm detector has been ordered for detector 2 A Dual 10 mm Ge detector cannot be ordered UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respe
163. efore suited to seldom accessed installations that may expose the unit to exceedingly cold temperatures The single actuator units are available in several optical configurations 1 x 1 1 x 2 2 x 2 dual 1 x 2 and dual 2 x 2 and in both single mode and multimode fibers They are very well suited to optical signal routing fiber network configuration and restoration as well as OEM style installations as part of a portable test jig Page 114 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Switch Selection Guide Flexible Small Channel Count Switch module SQ series The SQ switch is ideal for applications requiring high optical performance in latching or non latching applications The full feature set and large number of optical configurations available in a common package and interface make it ideal for a wide spectrum of applications ranging from OEM style installations in portable and modular test sets to remote sensing and monitoring installations The units are available with up to 8 channels with several variants available with dual inputs all contained in one foot print The SQ series of switches are the only units in the market having TTL and parallel compatible drive modes with no change in specifications The SQ is also unique in that it is capable of being operated in either latching or non latching modes either being user selectable with no DIP switches or reprogramming f the unit P
164. electrical means SWS the measurement receiver is similar to the configuration to the two power in the fixed wavelength method however they are built into a single measurement unit De easily expanded As in the fixed wavelength technique a two step process is necessary and tee fundamental loss calculation remains the same Swept Source m Measurement Meth the optical a an IL P dBm PgogurceMonitor Bm put P dBm PgourceMonitor 4B Reference However due to the fact that the laser is changing wavelength in time it is key that the bandwidth of the power meter be properly matched to the sweep speed to ensure there is no wavelength skew in the measurement In addition synchronous triggering of the power meters is critical to ensure the timing to the measurements remains correlated Standards TIA EIA 455 180 A Measurement of Optical Transfer Coefficients of a Passive Branching Device Coupler IEC 61300 3 5 Fibre optic interconnecting devices and passive components Basic test and measurement procedures Part 3 5 Examinations and measurements Wavelength dependence of Ts IEC 61300 3 29 Basic test and measurement procedures Part 3 29 Examinations and measurements Measurement technique for characterizing the amplitude of the spectral transfer function of DWDM components 209 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Intrinsic Jitter Devices L
165. endations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109649 Rev 005 03 05 1 2 5 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase CUSTOM SWITCH ASSEMBLY 126 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU Benchtop Instruments Amplifiers Erbium doped fiber amplir rs EDFAs have been developed as a key technolo v for increasing the bandwidth of optical syst ms E FAs provide a convenient way to overcom component loss especially in multichannel dense wa
166. er MMF with without with Power Monitor Power Monitor Power Monitor Wavelength range 1260 to 1650 nm 750 to 1350 nm 1 2 3 Insertion loss IL at minimum attenuation lt 1 5 dB lt 2 2 dB lt 2 2 dB lt 3 2 dB Attenuation range 45 dB Attenuation repeatability 0 01 dB 0 01 dB Attenuation accuracy Attenuation slew rate nominal Attenuation setting resolution 0 001 dB Maximum input power 23 dBm Polarization dependent loss PDL lt 0 05 dB 0 1 dB gt 10 dB s typical gt 7 dB s typical S 0 001 dB N A Return loss RL APC and PC connector gt 60 45 d Gy gt 35 30 dB Closed loop output power range N A in line power monitor option to 11 dBm at N A 40 to 5 dBm at 71550 15 nm 850 1310 15 nm 0 03 dB N A 0 03 dB 0 015 dB N A 0 015 dB Power setting resolution 0 001 dBm N A 0 001 dBm Shutter isolation Relative power meter uncertainty N A Power setting repeatability K gt 100 dB Calibration period 2 years Warm up time 30 minutes 0 to 50 C 30 to 60 C Operating temperature Storage temperature Operating humidity lt 90 at 23 C lt 20 at 50 C relative non condensing Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 1 1 kg single 1 3 kg dual At 1310 15 and 1550 15 nm for SM unit and at 8
167. eric Requirementg for ical Time Domain Reflectometer OTDR Type Equipment TIA 455 FOTP 8 Measurement o icr Connector Loss and Reflectance Using an OTDR TIA 455 FOTP 61 Measure iber or Cable Attenuation N Product References are usually purchased as a complete unit OTDR Ka vendor Q9 217 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Dependent Gain ee Devices Erbium Doped Fiber Amplifiers EDFAs Semiconductor Optical Amplifiers SOAs Introduction The polarization dependence of the gain comes from either the passive components in the EDFA or from the waveguide in an SOA The measurements are made at typical operating conditions to include the effect of gain saturation Laser __ L_ g R B Sources ATT TAP Switch PC DUT Switch PC Power eter N Measurement Method The test set is aQ measuring the ratio of the power at the Device Under Test DUT and the losses throug switch paths and the loss before the Optical Spectrum Analyzer OSA The tap and po er are used to set the desired input power The measurement begins by setting thg ower to the desired value using the tap and power meter The source spectrum is then ured on the OSA The switches are then set and the output spectrum is measured The ion controller PC rotates the input polarization state At the output the polarization j rotated to remove any Polarization Dependent Loss PDL of the attenuator
168. erved 10116397 Rev 008 03 05 gt 5 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION MAP Multi Rate Electrical Clock and Data Recovery For stand alone applications the MAP Clock and Data Recovery may be used as a benchtop Applications Receiver component testing System testing Sampling oscilloscope trigger O Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 26 Key Features Five key 10 Gb s rates supported Single ended or Differential Data Input e Clock and data recovery Clock 4 output for scope triggering The Multiple Application Platform MAP Multi Rate Electrical Clock and Data Recovery Cassette provides a cost effective clock and data recovery reference for electrical datastreams at 10 Gb s rates The internal clock reference provides five selectable data rates SONET SDH std two forward error corrections FECs a 10 Gb Ethernet and a fiber channel A low jitter Clock 4 output is ideally suited to provide a trigger signal for a sampling scope Combine this MAP cassette with the MAP Receiver Cassette to form a complete optical clock recovery solution Add a MAP Transmitter Cassette to form a sensitive regenerator for laboratory applications NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE
169. ese switches is based upon JDS Uniphase s proven expanded beam lens technology which utilizes a precision stepper motor to align optical improves repeatability and performance Internal temperature control of the switching mechanism ensures excellent operational stability NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES a JDS Uniphase ka Continued Both single mode SM and multimode MM versions of the SB SC and SCG series switches are available The series features the high level of performance required for multi unit testing in R amp D and in manufacturing environments The compact portable SB switch and the standard rackmount enclosure SC and SCG switches are highly suited for applications in telecommunications manufacturing and test environments JDS Uniphase s SB and SC switches are known in the fiberoptic industry for their low IL and excellent repeatability In addition to the many standard options available we also eS hes in this series to meet your specific application needs O LLL 1 M N 2 1 32 23 i 2 3 j 4 2 M N M 1 M 2 M 3 ii i M M N The 1xN configuration allows a single nput The MxN configuration allows for mass reconfiguration to be switched to any of the Ayt of optical paths It provides simultaneous connections of a bank of inputs to outputs SB SC SCG C Config
170. eserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10143023 Rev 004 03 05 6 3 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP Tunable Laser Key Features gt 110 nm of tunable range over C L band A ER A gt 6 dBm output power 4 Tunable keser a RL e Coherence control Polarization maintaining fiber PMF output saus e High speed tuning For stand alone applications the MAP Tunable Laser may be The Multiple Application Platform MAP Tunable Laser Cassette is an external used as a benchtop cavity tunable diode laser that offers exceptional speed accuracy and flexibility Applications O at a competitive price making it the ideal source for advanced fiberoptic systems and component testing Dense wavelength division multiple 4 p j DWDM transmission testing The wide
171. esolution in both manufacturing environments research and el pment R amp D and production environments Currently ROADMs Wavelength Switches used at m 0 customer sites with over 8500 detector channels deployed Wavelength Blockers the SW x atform validates optical performance for the latest in optical Circuit Packs and modules including ROADMs Wavelength Switches Tunable Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 The laser co Dense wavelength division multiplexing Fj Circuit Packs The SWS system consists of a tunable laser source a DWDM Coarse wavelength division optics module SOM a control module a receiver chassis one or more multiplexing CWDM ctor modules and application software Tunable Filters Couplers Splitters AN ith a 0 002 nm absolute wavelength accuracy over the entire 1420 to Switches Attenuators Fiber Bragg AS 1630 nm range a high sweep speed of 40 nm s and a deep dynamic range of FBGs Interleavers Dichroic Fil er gt 70 dB the SWS2000 provides excellent performance combined with a low Micro Electro Mechanical Systems cost of ownership the distributed architecture supports up to eight separate MEMS and Waveguide Devices individually controlled measurement stations per source laser Often purchased initially as an R amp D tool this scalability in the number of measurement stations provides customers the flexibility to transition the equipme
172. eviations per Laser Notice No 50 July 2001 INVISIBLE LASER RADIATION CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP 1550 NM OPTICAL TRANSMITTER pecifications Parameter Minimum Typical Maximum Optical wavelength 1530 nm 1550 nm 1565 nm Optical output power Pseudo random binary sequence 0 4 dBm 0 2 dBm 1 4 dBm PRBS 2 1 average modulated power Optical power laser off 50 dBm Extinction ratio 9 5 dB 11 0 dB Eye mask margin 15 using OC 192 mask at 9 95328 Gb s with 4 order B T filter applied Wideband jitter at 10 71 Gb s PRBS 2 1 excluding source jitter 2 1 ps RMS 5 0 ps RMS Optical path penalty at 10 12 bit error rate BER 800 ps nm at 1550 nm 2 0 dB General Data rate 0 622 Gb s 10 71 Gb s Optical connector FC PC SC PC Optical fiber 10 5 125 400 rization maintaining Electrical connector Data input amplitude range 0 5 V p p 1 2 V p p Data input coupling AC coupled Impedance 50 Ohms Polarity erting digital input high Optical high Return loss RL 75 to 5000 MHz ces 12 dB 5000 to 9000 MHz 9 dB Operating temperature 0 to 50 C Storage temperature 30 to 60 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight Q 1 2 kg 1 Guaranteed performance 2 Limiting pre amplifier prior to modulat
173. f Output Channels Per Independent Switch Wavelength Range nm 003 Qy All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase Teserves te ripnt to eange at any me Without notice me design specincations nenon Nt OF form Of its Products described Nerein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21074118 Rev 000 03 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION and Reconfigurable Matrix Switch SG and SGRM Series Key Features Up to 64 total inputs and outputs 32 x 32 28 x 36 etc aipesenes 4 Latching optical connections e Low IL over operating range Broad wavelength operatio A n
174. f the optical call eXpressed in decibels dB For non return to Sae sented by light on while logic 0 is represented ite light level for a logic 0 as driven by the need to ased on to minimize wavelength chirp or because the external modulator can not fu ess the input light source The ER reported is highly dependent upon the data pattgem A 7101010 measurement will be different than that achieved by using a Pseudo Rando Gps Sequence PRBS pattern due to data pattern dependent attributes of the elec Z echnology used Measurement Me characterizations require a Pattern Generator PG providing an electrical sou Operating at the desired rate and having a pattern representing the anticipated ions e g PRBS or SONET Framed The PG drives the transmitter Device Under Testg D unless a modulator component is being evaluated In which case a laser source is also reg ged The DUT output is routed to an ER measurement device where interconnect and fi Gabling losses have previously been characterized by use of a power meter Some Res uring configurations include a reference transmitter with known ER for calibration and diagiWstic troubleshooting The most prevalent measurement approach is an oscilloscope utilizing a calibrated O E converter and TIA EIA recommendation OFSTP 4 filter This filter is the same specified for eye mask testing allowing both ER and eye mask measurements to be made simultaneously The ER is defined with the p
175. fied spontaneous emission combined with specialized optical filters to achieve optimal flatness over its operating wavelength range Through optimization of spectral power density spectral uniformity and optical stability the broadband source maximizes your capabilities of optical component spectral measurements and systems compliance tests both in manufacturing and research and development R amp D environments The Benchtop models provide specialized variants and optical performance not available in the Multiple Application Platform MAP product line Additional Benchtop BBS models are available in the MAP BBS cassette product line 147 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP BROADBAND SOURCE Spectral Density dBm 1 nm p U NR uw N u 4 a a 1540 1545 1550 1555 1560 1565 1570 1575 Waveleneth nm BBS1550 2XX30 C band 250 mW Spectral Density dBm 1 nm 5 1560 1565 1570 1575 1580 1585 1580 1595 1600 1605 1610 1615 Wavelength nm BBS1590 2XX00 L band 20 mW 148 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP BROADBAND SOURCE Specifications Parameter 1550 1550 1590 1590 150 mW 250 mW 20 mW 150 mW Output Power Output Power Output Power Output Power
176. h rotation 0 05 dB 0 05 dB Return loss RL gt 45 dB gt 45 dB Extinction ratio gt 40 dB Fast axis alignment accuracy lt 0 5 Angular accuracy 0 1 Rotational resolution 0 075 Maximum rotational speed per element 900 s Maximum optical input power 00 mW Calibration years Operating temperature 40 C Storage temperature Humidity Dimensions W x H x D ces 60 C c3 R from 10 to 40 C non condensing B 06 x 13 24 x 39 5 cm Weight 1 6 kg From 1520 to 1630 nm for the 1550 nm version At23 C 5 C Bw N Measured with a gt 45 dB polarized narrow spectral line source For more information on this or other pr or JDS Uniphase directly at 1 800 498 J S IL variation using an incoherent broadband source with both waveplates ex rates Ordering Information oN c ts and their availability please contact your local JDS Uniphase account manager in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPP 101S5FA MAPP 10 L Code Model Code Connector Type 1S Controller SMF input FP FC PC 1P Controller PMF input FA FC APC FC connectors SC SC PC 1550 nm only SU SC APC Code Wavelength nm 3 1260 to 1360 5 1420 to 1630 IEEE Std 802 3ae is a registered trademark of the Institute of Electrical and Electronics Engineers UL is a registered trademark of Underwriters Laborato
177. hannels 48 48 channels In Output Port pe S Bulkheads on fri Code 1 3U chassis only 2 Bulkheads on back 3 Pigtails on front 3U chassis only 4 Pigtails on back 3 mm cable 1 3 U height up to 8 x 8 ports 100 7 U height up to 16 x 16 ports 14 U height up to 32 x 32 ports If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109645 Rev 004 03 05 NORTH AMERICA 800 498
178. he equipment rack Operating temperature 15 to 30 C range Maximum variation range during a test 3 C Operating humidity 0 to 80 RH range Maximum variation range during a test 15 RH 1 Valid for 5 m pigtails with no connectors or FC APC connectors For longer pigtails and or other connector types contact JDS Uniphase for specifications 2 High backreflection version is available for pigtailed fibers up to 5 m or APC connected fibers up to 5 m only 3 Custom options also available 168 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase ENVIRONMENTAL TEST SYSTEMS Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Ordering Information for OCETS Sample OCETS100 177PHNC OCETS HL O Code PDL P With PDL N Without NETON LYRE FC APC Code Number of Channels PDL N o connector 035 35 070 70 105 105 Code FiberType um C turn Loss Option 130 130 7 9 125 tandard 160 160 1 50 125 Ultra high 62 5 125 Code Source Wavelength nm S 9 850 1310 7 1310 1550 Vv 1310 1490 1550 1 gt If the configurations available do not meet your performance requirements
179. ibility is assumed for any inaccura es aue user assumes all risks and liability whatsoever i ion with the use of a product or its application JD reserves the right to change at any time without ne esign specifications function fit or ri cribed herein including withdrawal at ct offered for sale herein JDS Uniphase tations that the products herein are free from 1al property claims of others Please contact JDS more information JDS Uniphase and the JDS se logo are trademarks of JDS Uniphase Corporation trademarks are the property of their respective holders 2 JDS Uniphase Corporation All rights reserved Printed in Canada 10109505 Rev 009 4 7 JDS Uniphase
180. icated uncertainty at 99 7 confidence level 30 Theoretically no upper limit wT gy Oo Based on the measurement of NIST standard reference 2518 Mode coupled PMD artifact wavelength range 1520 5 to 1568 5 nm DGD 329 fs een a oiii ee eg See eee 184 UL is a registered trademark of Underwriters Laboratories Inc LabVIEW is a registered trademark of National Instruments Corporation ST is a registered trademark of Lucent Technologies Visual Basic is a registered trademark of Microsoft Corporation National Instruments is a registered trademark of National Instruments Corporation All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109651 Rev 005 03 05
181. ies a high wavelength resolution Swept Wavelength System Environmental Monitoring Application SWS EMA version suitable for all types of DWDM devices including interleavers couplers and etalons Both systems fully characterize all required parameters of their respective devices The OCETS system can by addition of a Swept Wavelength System be converted into the SWS EMA In this way a system bought for the reliability measurement of relatively simple wideband components can be upgraded to a system for the measurement of more complex devices needing high wavelength resolution Once upgraded the hybrid Environmental Monitoring Systems can easily be switched between the two functions Both systems route test signals to and from the DUT with JDS Uniphase SC series switches Such an upgrade would utilize existing series switch array with a separate dedicated soltware application package for high wavelength resolution measurements 166 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase ENVIRONMENTAL TEST SYSTEMS Optical Component Environmental Test System OCETS Series q Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 The Laser Source Box is a Class 1 laser It is classified per IEC standard 60825 1 2002 and complies with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 INVISIBLE LASER RA
182. iguration so that a single controller can control up to eight chassis Dynamic MAP firmware and console that automatically identifies installed cassettes PC based MAP Console program with drivers ActiveX Dynamig link libraries DLL LabVIEW and simulati e e Color displ SANNA interface MAP Benchtop and Slave Chassis Qy Applications The Multiple Application Platform MAP is a flexible instrumentation Periodic reconfiguration and or platform used for optical or electro optical test and measurement applications expansion capability O It is available in three formats a 19 inch 8 slot Master MAP 2M00 a 19 inch High reliability availability in a 24 8 slot Slave MAP 2S00 and a 9 5 inch 3 slot Benchtop MAP 2B00 They manufacturing environment feature a common hot swappable backplane compatible with over 20 different types of instrumentation cassettes The MAP Master and MAP Benchtop include a 9 key keypad color display remote communication ports and connectors for inter chassis connections They can be used as stand alone system or as a master when used in a master slave configuration with up to seven MAP Slaves Safety Information Optical source cassettes when installed in the MAP chassis meet the requirements of standard IEC 60825 1 2002 and comply with 21 CFR 1040 10 except deviations per Laser Notice No 50 July 2001 Chassis Selection CE Compliance plus UL3101 1 and CAN CSA MAP is used when instrument
183. igurations Q spectrum analyzers The switches are based on mechanical latching actuators with Single 1 x 2 dual independent 1 x 2 Single bypass dual independent bypass a million cycle lifetime The single and independent dual 1 x 2 configurations units feature dual built Safety Information in 50 Ohm terminators for each of the unused ports allowing efficient use as an This cassette when installed in a MAP chassis A or B source selector complies to CE requirements plus UL3101 1 The single and independent dual bypass switches feature a single built in 50 and CAN CSA C22 2 No 1010 1 Ohm termination on one of the insert loop ports which is activated when switch is in the bypass straight through state 1310 nm Tx 1550 nm Tx pattern generator RF switch 1x2 MAP RF Switch Application 73 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP RF SWITCH Specifications Parameter Specification Frequency range DC to 26 5 GHz Insertion loss IL 0 25 dB DC 2 GHz 0 50 dB 2 to 18 GHz 1 25 dB 18 to 26 5 GHz IL repeatability 0 03 dB DC 18 GHz 0 50 dB 18 to 26 5 GHz Isolation 90 dB DC 18GHz 50 dB 18 to 26 5GHz SWR through line lt 1 15 DC 2 GHz lt 1 25 2 to 12 4 GHz A lt 1 40 12 4 to 18 GHz lt 1 80 18 to 26 5 GHz SWR into load lt 1 15 DC to 2 GHz lt 1 25 2 to 12 4 GH lt 1 30 12 4 to 18 lt 1 8
184. ilter 42 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP TUNABLE GRATING FILTER Specifications Parameter Model C Model G Model K Wavelength range 1420 to 1630 nm 1420 to 1630 nm 1420 to 1630 nm Optical shape Gaussian Gaussian Gaussian 3 dB bandwidth 0 11 nm 15 0 25 nm 15 0 55 nm 15 3 20 dB ratio 0 40 0 05 0 31 0 05 0 31 0 05 Insertion loss IL 1520 to 1630 nm lt 6 0 dB lt 4 5 dB lt 4 5 dB 1450 to 1630 nm lt 8 0 dB lt 6 0 dB lt 6 0 dB Input power 300 mW or 1 W 300 mW Return loss RL dB Wavelength resolution Polarization dependent loss PDL 1480 to 1630 nm Se m oO 0 3 dB Tuning speed gt 5 nm s Peak to average background noise gt 45 dB Accuracy 2 0 2 nm Peak search accuracy 0 2 dB from output peak power Dimensions W x H x D Polarization mode dispersion PMD lt 0 3 ps Group delay variation within a 3 dB bandwidth S lt 5ps Recommended calibration period Q 1 year Operating temperature AN 10 to 40 C Storage temperature amp amp 10 to 60 C 8 12 x 13 24 x 39 5 cm Weight 2 3 kg Measured at 1550 nm Not including tap coupler loss if installed OF WN At23 C 45 C At selected wavelength Input power is within the range of 20 dBm to 20 d Excludes PDL effect 43
185. in Options 1 tay 2 m long 0 None 50 50 coupler 10 90 coupler In line power monitor 1 9 X If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc SMF is a registered trademark of Corning Incorporated ST is a registered trademark of Lucent Technologies All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights res
186. ina Toll Free 10 800 140 5599 TOLL FREE ACCESS CODES BY CUUN FRY Country Code Australia 0011 Europe 00 001 Phone 002 Fax Israel 014 001 KID 0061 INC 0041 ITS Malaysia 010 New Zealand 00 Singapore 001 Hong Kong Japan 001 Korea Telecom 002 Dacom 009 Telia 007 Tele2 Taiwan 010 South Korea Sweden For all other countries dial the access code for North America About Technical Support JDS Uniphase has a dedicated post sales support team 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 5 00 PM ET Monday through Friday If you are experiencing a problem with the operation of a product our Technical Support Specialist is trained to w rk with you to carry out technical troubleshooting to resolve or co he reported problem If a problem is confirmed the Technical Supp jaJist will ensure the appropriate action is taken to address your ne All service repair calibrat grade for our products is provided via the JDS Uniphase Technical ort Team Replacement use ls and any software updates are also included in our standard supp r age 24 7 ency Technical Support 2 gency Technical Support via our global toll free 800 number is also in our standard level of support
187. information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109657 Rev 006 03 05 3 3 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION MAP 850 to 1550 nm Optical Receiver For stand alone applications the MAP Broadband Source may be used as a benchtop Applications Research and development R amp D testin for 10 Gb s Ethernet and Fiber Chagfne O Transmitter component testing Dispersion penalty testing Bit error rate BER testing Manufacturing test set System testing Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 34 Key Features 760 to 1650 nm wavelength with multimode MM fiber Operational from 155 Mb s to 10 51875 Gb s data rates 0 5 V peak to peak p p analog output Limited differential outputs The Multiple Application Platform MAP 850 to 1550 nm Optical Receiver Cassette is a PIN based linear receiver which serves as a cost effective optical reference at 10 Gb s data rates The receiver is ideally suited for 10 Gb Ethernet and Fiber Channel applications The receiver can be used for applications such as testing of transmitters a
188. ing Information SB Model For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SB2E10141 27XF000FP SB HL T Eee 2 TT Code Input Port Type Code Output Port Type Code Return Loss Connector Type 1 Bulkheads on front 1 Bulkheads on front X Standard P FC PC bulkhead maximum 24 4 Pigtails on back 4 Pigtails on back A Analog FC APC bulkhead maximum 24 B Bidirect SC PC bulkhead maximum 24 standard SC APC bulkhead maximum 24 Code Number of Input Channels Code Number of Output Channels C Bi ional No connector 1C 1 input channel C config 001 1 output channel 2 2D 2 input channels D config 2E 2 input channels E config 020 20 output channels Cable Length 3mm diameter 2F 2 input channels F config Fiber Type um 1m 024 24 output channels 9 125 003 3m P C 50 125 009 9m 000 Not applicable bulkheads only 048 48 output channels Q 2 62 5 125 Q 4 100 140 Code Wavelength Range nm F 1270 to 1670 1 Bulkheads and pigtails cannot be mixed in the same panel S ordered Q 850 to 1350 MM only 2 For reverse direction use bidirectional B 750 to 940 MM only Bulkhead Limit
189. ing capital costs The SWS supports the distributed architecture model In this model a single wavelength source can be distributed to eight independent test stations This reduces the capital cost by sharing one tunable laser source between all stations The system is available in two versions The SWS2000 is the basic system for component characterization It supports insertion loss polarization dependent loss and return loss measurements The SWS OMNI is an upgrade to the SWS2000 that allows measurements of chromatic dispersion and differential group delay The SWS OMNI uses the industry standard phase shift method for the chromatic dispersion measurements Included in This Section a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Swept Wavelength System SWS2000 Series Key Features Scalable architecture add more stations any time 0 002 nm absolute wavelength accuracy Up to 128 detector channels available per station Remote source laser can be shared by up to 8 workstations High speed scanning user controllable up to 40 nm s Flexible easy to use software Customized applications through dynamic link libraries DLLs 24 7 INS Applications The Swept Wavelengt tem SWS2000 series remains the industry standard Optical component and module solution for measu rtion loss IL polarization dependent loss PDL characterization in both R amp D and return loss irectivity with high wavelength r
190. inia j h nee os aeaa e High reliability j RS 232 and GPIB remote control Local keypad control on 3U chassis S Y G os Applications of SG series Pr N Matrix Switch SG Series Reconfiguration and restoration of broadband T niphase Programmable Matrix Switch is a non blocking compact fibernetWworks Q ountable instrument providing reliable switching operations The design Datacommunicadonand mal media ws the user to connect any input to any output without breaking other networks xisting connections Standard asymmetrical 4 x 8 8 x 12 up to 28 x 36 and Research and development R amp D S symmetrical 8 x 8 16 x 16 up to 32 x 32 configurations are offered for a broad O range of applications in standard single mode SM and multimode MM Safety Information Q fibers Complies to CE requirements plus UL310 1 The operation of the matrix switch is based on the proven expanded beam technology utilizing precision stepper motors to align optical channels This feature results in excellent repeatability and stability The use of collimating lenses minimizes insertion loss IL and enhances performance of the switches and CAN CSA C22 2 No 1010 1 Optical signal stability over time is assured through the latching feature iia Connections within the matrix switch change no more than 1 dB if there is a 1 1 power interruption At power up the switch does not reconfigure until 5 commanded to do so 7 For reliability
191. ion driver co Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP 1550 nm Optical Transmitter MAPT 110014FP UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase SET VES Te Tete Ciao e aT ay Me OMT NOTCe Me ee IE Specimens TOn Mt OT TON O Procter terere tere nT including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109656 Rev 006 03 05 INSTRUMENTATION LITERATURE REQUEST instrument
192. ired performance parameters fall outside of predetermined limits resulting in a lower quality of signal A signal conversion device that converts power from one form to another such as from optical power to electrical power An injection laser diode which has a Bragg reflection grating in the active region in order to suppress 197 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Reference of Technical Terms DRIFT DYNAMIC RANGE EMULATION ERBIUM DOPED FIBER AMPLIFIER EDFA EXCESS LOSS EXTINCTION RATIO ER FERRULE FIBER BRAGG GRATINGS FLATNESS GAIN GANGED HOT SWAPPABLE INSERTION LOSS IL ISOLATION LATCHING FEATURE LINEARITY 198 A long term change in any attribute or value of any system or equipment operational parameter In a transmission system the ratio of the overload level to the noise level of the system usually expressed in dB Ratio of the highest to lowest detectable signal of a system expressed in dB The ability of a device or system to simulate the behavior of another optical device A wideband optical amplifier that uses an erbium doped optical fiber as its active element and is characterized as having a high signal gain and high output power over a wide wavelength range The difference in dB of the sum of the inputs to the sum o tputs The ratio of optical power between the principal inor axis of polarized light expressed in dB
193. itches MULTIPLE M x Up to two locking switches for a total M N channel count of 100 cube Q itches plus passive devices such as couplers 1xN MULTIPLE 1xN MULTIPLE MxN CUSTOM OG TS Ag CH oe Call SKB Series Switch Configurations NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a e Aod JDS Uniphase LARGE CHANNEL COUNT SWITCH MODULE Dimensions 1 105 898 411 000 Ground Attachment M3x0 5 Max 5 mm An o mM N fo N ma z Thread Depth 3 3 8 x Tr un 4 Places m in Ke 000 2 393 gt oad S NE 5 763 5 460 Indicator 4 763 4 547 4 553 Ground Attachment M3x0 5 Max 5 mm Thread Depth 4 Places 000 2o o 3 R2 2 153 o 000 107 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com LARGE CHANNEL COUNT SWITCH MODULE a JDS Uniphase Specifications Parameter Typical Maximum Typical Maximum N lt 25 Non Latching 26 lt N lt 100 Non Latching N lt 22 Latching 23 lt N lt 85 Latching Insertion loss IL Single mode SM 0 5 0 7 dB 0 8 1 2 dB Multimode MM 0 4 0 6 dB 0 7 1 0 dB Return loss RL SM 62 57 dB 55 45 dB MM 25 20 dB 20 20 dB Polarization dependent loss PDL SM 0 02 0 04 dB 0 04 0 08 dB IL stabili
194. ith 21CFR1040 10 except deviations per models are available in the MAP EDFA product line Laser Notice No 50 July 2001 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm 129 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com BENCHTOP ERBIUM DOPED FIBER AMPLIFIER a JDS Uniphase K pecifications MODEL 0OAB1552 0AB1592 OAB1596 OAB1598 OAB1562 OAB1564 Test band C band L band L band L band C L band C L band Amplifier type Booster Booster Mid span Booster Booster In line high power high power access DWDM DWDM Operating wavelength range 1528 to 1565 to 1570 to 1570 to 1530 to1560 nm 1565 nm 1610 nm 1603 nm 1603 nm 1570 to1600 nm Input signal Single channel Multichannel DWDM Single Channel Saturated output power gt 24dBm 222dBm 220 dBm gt 20dBm 219 dBm gt 14 dBm Noise figure lt 5 0 dB lt 5 5 dB lt 5 8 dB lt 5 5 dB lt 6 5 dB lt 6 5 dB Small signal gain gt 36 dB gt 29 dB 222 dB 220 dB 222 dB 220 dB MS loss lt 7 dB Spectral gain flatness N Polarization dependent loss PDL lt 0 2 dB lt 0 3 dB lt 0 3 dB 0 AdB lt 0 4 dB lt 0 4 dB Polarization mode dispersion PMD lt 0 4 ps lt 0 8 ps S 0 9 ps lt 0 7 ps lt 0 7 ps Input output isolation gt 45 32 dB gt 40 40 dB E 40 40 dB 240 40 dB gt 40 40 dB Input output monit
195. ith your OCETS Students will also be shown and asked to demonstrate e How to verify proper operation of the system Troubleshooting techniques Guides and tools are also discussed Who Should Attend Individuals responsible for the implementation X ems or equipment al Individuals involved in the set up operatiqgms enance of this equipment e Individuals involved in the sale or demon this equipment Key Benefits Provides key information and famfiar or those involved in the purchasing sale application operation mainte demonstration of this equipment sales technical support purchasing or appl engineers Provides hands on on d real time set up of equipment e Allows effective ang e set up to prepare OCETS for operation Allows practice a ments to validate the correct system operation new installation or re installatio Provides rowoleshooting techniques and information to reduce downtime including detailed use the provided OCETS software Co seGpepitics s fOfmat Instructor led Grwup size Limited Location JDS Uniphase facility or on site Prerequisite Basic knowledge of fiberoptics Basic knowledge of test and measurement Duration 2 3 days 192 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Technical Training Course Overview er Swept Wavelength System SWS Overview This course gives you the tools knowledge and confidence to tackle real world o
196. jumper cable 1 m 181 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com SWEPT WAVELENGTH SYSTEM Swept Wavelength System SWS OMNI Expansion Series Applications Passive optical component and fiber characterization in lab and manufacturing environments Safety Information Complies to CE requirements plus UL3101 S and CAN CSA C22 2 No 1010 1 TheJ amp se source in the Source Optics Module i ass 1 laser The Tunable Laser Source SWS 1 is a class 3B laser Both are classified per IEC standard 60825 1 2002 and comply with FDA standard 21CFR 1040 10 except deviations per Laser Notice No 50 July 2001 CLASS 1 LASER PRODUCT IEC 60825 1 2002 182 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm Key Features Virtual Modulation Frequency Feature VMFF flexible post processing Measures IL PDL GD DGD with a single bench or rackmountable receiver e Distributed Architecture Add additional measurement stations at any time e Wideband scanning 1520 to 1630 nm in one sweep e High speed two qannel device characterization over C band or C ds for simultaneous measurement of all para e Calib Sa ST CD and Polarization Mode Dispe PMD standards ful engineering software package DLL library CG software applications With PAN addition of an RF modulator within th
197. lass 3R 850 nm in standard IEC 60825 1 2002 and complies with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 INVISIBLE LASER RADIATION AVOID POSURE TU BEAW CLASS 3R LASER PRODUCT IEC 60825 1 2002 700 1400 NM CLASS 1 LASER PRODUCT IEC 60825 1 2002 139 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase STRESSED EYE GENERATOR Continued Data Source Requirements The JDS Uniphase 10 Gb s Reference Transmitter has several features that allow the user to build a stressed eye per IEEE Std 802 3ae Clause 52 The transmitter provides the user with the ability to insert AM interference and provides a switched path for OMA calibration insertion of an internal 4th order low pass Bessel Thomson filter or externally supplied filter NOTE The 10 Gb s Reference Transmigter does not supply timing jitter for the stressed eye test Timing jitter is s ic by the data source The following are the requir eV data source for compliance to IEEE Std 802 3ae Wideband Jitter p p lt 0 Data source myte the frequen wie to add 0 05 to 0 15 UI of added sinusoidal jitter p p at ge shown below via an external clock input Freque ge of jitter 40 kHz to 10X Loop Bandwidth of DUT S 5U 4 O Applied sinusoidal jitter peak to peak amplitude UI log scale 0 15 UI 0 05 UI 3 x range 40 kHz 4 MHz 10LB Mask of
198. ls to any of the N up to 24 output channels in a non blocking manner Both single mode SM and multimode MM versions are available by special order The operation of the switch is based on proven JDS Uniphase expanded beam lens technology utilizing precision stepper motors to align optical channels The use of collimating lenses minimizes insertion loss IL The design is optimized for high return loss RL The switch is microprocessor controlled via an addressable serial interface RS 485 and is designed for mounting on a printed circuit board or within a module 93 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com 2 X N COMPACT SWITCH MATRIX MODULE a JDS Uniphase Specifications Parameter Specification Insertion loss IL lt 1 0 dB max semi blocking lt 1 5 dB max fully non blocking contact factory for option Return loss RLY gt 55 dB Polarization dependent loss PDL lt 0 1 dB IL stability 24 hours lt 0 06 dB Change in IL during power on off cycle lt 0 1 dB Crosstalk maximum 70 dB Maximum input power optical 300 mW continuous Switching time first channel each additional channel 25 15 ms Lifetime gt 10 million switching cycles Interface serial interface RS 485 S Operating voltage 12 0 6 V DC Power consumption 10W maximum Operating temperature 35 C to 75 C Storage temperature 40 C to 8
199. ltage A SMultimode switches available up to fibre cots of 16x16 5 e Environmental N Normal E Extended Customisati FOR MORE INFORMATION SES V Non Standard Variant For more information this or other products ad their availability please amtact your local JDSU Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU_ 5378 in North America and 800 5378 JDSU worldwide oor via email at sales jdsu com Copyright 2005 Polatis Ltd All ri ts reserved All informatic in this damet is provided for informational purposes aly amd is subject to change without notice Polatis Ltd assumes no liability for actios taken based on infomation contained herein polatis polatis Qotical Switch Tray OST The Polatis OST family is a rage Of fully mmr blocking Qotical switch units designed for 19 ANSI and ETSI rack eguijment practice Excellent repeat dbility ad aotical performance are achieved for both single mode and multimode fibre variants using Polatis direct beam steering technology Switches are available in both symmetric NN amd asymmetric NxM fomats with N aa M fibe conts ranging fron 4 through to 32 in increments of 4 for Single mode products Multimode switches are currently available with fibe comts up to 16x16 Polatis also of fer Reamfigurable switch trays allowing the user to create any matrix shape wi ttal fibre count Reconfigurable switch i currently range fron 8 through to 32 fi
200. ltiple batches are defined when differing sets of tests are required A second and subsequent test can be added for additional sets of DUTs up to the switch capacity limit while the first test is running In this way an environmental chamber running a long term damp heat test on a first prototype for example could evaluate the performance of product improvements by installing later devices in the chamber and configuring a second test to run with the same conditions and ICETS View To OCETS TE Fie Mode Tea Bach window Sode Stew Heb Paes eer cost ALE O Z Leckot eea Comp 2 1709 we Start VINOZ AMAI PN Tost 2665_09 Bonk SWIA Bask SWI4 Parometer ILC 1 17Ian Cosponemt 1 167 OCETS Software NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Ad JDS Uniphase gt OPTICAL COMPONENT ENVIRONMENTAL TEST SYSTEMS OCETS Specifications Optical Component Environmental Test System OCETS Parameter Single mode SM Multimode MM Fiber type 9 125 um fiber standard 3 mm jacket 50 125 um or 62 5 125 um fiber standard 3 mm jacket Fiber length 5m 5m Insertion loss IL repeatability 0 04 dB over 100 hours 0 04 dB over 100 hours IL dynamic range gt 75 dB gt 55 dB Return loss RL repeatability 0 5 dB up to 55 dB over 100 hours 0 5 dB up to 30 dB ove
201. lute difference in power measured in milliwatts The measurement is PG enter of the eye pattern Standards O IEEE P802 3ae Media A e ontrol MAC Parameters Physical Layer and Management Parameters for 10 RES ion Product Ref fey for a modular Q test is usually built from a discreet set of instruments The parts required gproach are shown below Refe eceiver MAP Receiver a enerator external vendor ctrical Filter external vendor Oscilloscope external vendor 215 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Optical Signal to Noise Ratio eee Devices Erbium Doped Fiber Amplifiers EDFAs Semiconductor Optical Amplifiers SOAs transmitters systems Introduction One measure of the performance of an optical device is the optical signal to noise ratio This is the ratio of usable signal to noise and should be measured at the wavelength of interest DUT Polarization Polarizer ATT OSA Controller DUT Polarization Polarizer ATT L Filter Controller SS gt Sometimes it may be necessary to integrate Q over an entire channel width Measurement Method The measurgplgfigof Optical Signal to Noise Ratio OSNR is usually Anglyzer OSA The modification shown here can be used if the signal is polarized and the noe Mnot The polarization controller is first set to pass the signal light through the polarizer Tet polarizer is rotated 90 degrees to block the
202. mail at sales jdsu com Sample MAPS 1K17104L1FP MAPS 1K O 7 D H Code Fiber Type um Code Connector Type o gt 17 50 125 750 to 940 nm FP FC PC 18 50 125 850 to 1310 nm FA FC APC 27 62 5 125 750 to 940 nm SC SC PC Qy 28 62 5 125 850 to 1310 nm SU SC APC 70 9 125 1270 to 1670 nm LC LC PC Code Switch Configuration 1CCL1 Single switch 1 x CC latching bulkheads 1CCN1 Single switch 1 x CC non latching TEVA 1CCL3 Single switch 1 x CC latching pigtail 2 1CCN3_ Single switch 1 x CC non latchinggmgta ng 204L1 Two switches 1 x 4 latching bu E 204N1 Two switches 1 x 4 non latching Biikheads 2CCL3 Two switches 1 x CC latching pigtail 2m long 2CCN3 Two switches 1 x CC O pigtail 2 m long 1 1 Number of output cha Ds 3 4 3 Number of output channels 01 to 25 Number of output channels 01 to 50 Number of output channels 01 to 22 If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc SMF 28 is a registered trademark of Corning Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accur
203. meter available It measures PDL of single mode SM Optical attenuator specifications O fiberoptic components using either an internal laser or an external source The Optical switch specifications multimeter measures the loss of a device under test DUT for four independent input polarization states The PDL and the average loss over all Safety Information polarization states are calculated using the Mueller matrix internationally Complies to CE requirements plus UL3101 1 standardized under IEC 613 00 3 12 and CAN CSA C22 2 No 1010 1 Meets the requirements of Class 1 in standard IEC 60825 1 2002 and complies with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 The multimeters have a sophisticated optical design that compensates for changes in optical power at the internal reference detector The design ensures accurate loss measurements regardless of drift in the source power or the coupling efficiency of the input light through the polarization state controller The integrated PDL standard source is particularly convenient for verifying the IEC 60825 1 2002 meter s calibration An external tunable laser or two fixed laser sources can be selected for various weenn measurements The multimeter is ideal for The multimeter easily and rapidly changes from measuring PDL and insertion loss IL to measuring return loss RL or power The PDL and IL are measured and displayed simultaneously in less than two seconds CLAS
204. mits 750 to 940 MM only If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions Bulkhead Type Max Count Including Commons FC PC 60 FC APC 60 SC PC 60 SC APC 60 92 UL is a registered trademark of Underwriters Laboratories Inc LabVIEW is a registered trademark of National Instruments Corporation All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109644 Rev 006 03 05
205. n instrument programming capabilities allowing test programmers to focus on test level functions and sequences rather than the details required to communicate with the specific cassettes in the MAP system During test execution the MAP Console can also be placed in a supervisory mode and used to monitor and control the MAP platform to help support troubleshooting and to minimize downtime The MAP Console comes with a built in simulator allowing Automation Developers to capture system configurations who do most of their development off line freeing real hardware for other purposes These features make test automation development and debugging fast and easy 15 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MULTIPLE APPLICATION PLATFORM Continued E SimpleMAPApp vi Diagram Typical LabVIEW Implementation of the ActiveX Drivers 16 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MULTIPLE APPLICATION PLATFORM Specifications Parameter MAP Master MAP Slave MAP Benchtop Capacity 8 single slot 3 single slot cassettes chassis cassettes chassis Power 100 to 125 V AC 200 to 240 V AC 100 to 125 V AC 50 60 Hz Field replaceable 200 to 240 V AC 50 60 Hz Power consumption 200 VA 200 VA 200 VA Mounting Rackmount Benchtop Rackmount Benchtop front center or rear front Ra
206. n of light in a single mode fiber as a result of the different group velocities for each of the two perpendicular polarizations of light travelling in the fiber In an optical device the change in a performance parameter as a function of the polarization of the input light Variation in a number of repeated measured quantities when measurement conditions are changed and restored The value corresponds to half the spread between the minimum and maximum value measured Optical power that is reflected back toward the source by a component such as a fiberoptic splice coupler attenuator etc 129 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Reference of Technical Terms RIBBON CABLES SEQUENTIAL SWITCHING SINGLE MODE SM SPECTRAL POWER DENSITY SPECTRAL WIDTH SPLITTER STABILITY SWITCHING TIME TOGGLE 200 Cables in which many fibers are embedded in a plastic material in parallel forming a flat ribbon like structure Switching between channels that is performed in single channel increments Optical fiber supporting only one spatial mode of light propagation In a spectral distribution the radiative power usually the optical power in a specified bandwidth spectral line or spectral width A measure of the extent of a spectrum For a source the BN of wavelengths contained in the output at one hal wavelength at peak power A passive device which divides optic
207. ncluded in This Section Erbium Doped Fiber Amplifier Programmable Attenuator Manual Variable Attenuator Stressed Eye Generator PMD Emulator Optical Delay Broadband Source In addition to the modular MAP products JDS Uniphase also offers individually packaged benchtop instruments These are stand alone products with features and specifications that complement those available in MAP instrument cassettes The following table lists the instruments available in the various classes a with some pertinent features Detailed specifications and o information can be found on the product pages INSTRUMENT Erbium Doped Fiber Amplifier Programmable Attenuator Manual Variable Attenuator Stressed Eye Generator PMD Emulator Optical Delay Broadband Source 129 132 136 139 143 145 147 SPECIAL FEAT gt High output poga Aqd additional waveleng SpecialgvaveNngth ranges higher att a available mpact instrument for field testing oNab applications Stressed eye conformance test solution Highly accurate PMD emulation Highly accurate optical delay production Additional wavelength ranges and higher output power levels supported E a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Benchtop Erbium Doped Fiber Amplifier EDFA Series Key Features Choice of wavelengths C or L bands High output power and gain Mid span access Compact benchtop design with rackmount kit o AT am JD
208. nd transceivers By combining the receiver with other MAP cassettes including switches and attenuators compact test facilities can be easily assembled The analog output is provided via an automatic gain controller AGC Therefore the output is limited but not squared The analog output will be linearly related to the input but the gain will change depending on the amplitude The digital outputs are limited NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP 850 TO 1550 NM OPTICAL RECEIVER pecirications Parameter Minimum Typical Maximum Optical performance Optical wavelength operational range 760 nm 1650 nm Optical return loss RL 12 dB Overload 0 dBm 1 0 dBm Sensitivity 850 nm 11 5 dBm 1310 nm 13 dBm 1550 nm 14 5 dBm Optical power monitoring accuracy 1dB 1 dB Electrical performance Wideband jitter analog output 64 mUI Bandwidth 3dB linear output 8 GHz GHz Low frequency cut off 3 dB kHz Output voltage analog WV p p Output voltage limited 0 3 V p p 0 4 V p p 0 55 V p p Output RL 100 kHz to 9 GHz 10 dB Output coupling AC coupled to 50 Ohms Output logic sense analog Non inverted General Data rates Sp amp ifitetions guaranteed at 9 95328 10 3125 10 51875 Gb s only Data patterns Pseudo random binary sequence PRBS 2 1 27 1 AnAiAnAi BnBiBnBi 1
209. necting devices and passive components Basic test and mosu procedures Part 3 7 Examinations and measurements Wavelength dependence of a at efi and return loss Product References Complete solutions for return loss are available such as the JDS Uniphase Backreflection and Multichannel Backreflection Meter RM or RX Series Depending on the number of wavelengths the test set can also be built from discrete parts The parts required for a modular approach are shown below Laser or Tunable Laser MAP DEB Laser Tap 3 dB Coupler 4 port MAP Utility Power Meter MAP Power Meter NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Transient Response ee Devices Erbium Doped Fiber Amplifiers EDFAs Introduction In Dense Wavelength Division Multiplexing DWDM systems wavelengths can be added or dropped at any time This creates a transient pulse in the EDFA This pulse can propagate in a chain of amplifiers and damage optical components Laser 7 Sources ATT 3 dB DUT ATT Photodiode L Photodiode Oscilloscope Tunable __ ie o gt Measurement Method The test consi turning on or off the desired wavelength channel or channels and measuring the change C power The test set contains a set of laser sources that simulate the system operation T diagram shows a tunable source that is modulated by an Acousto Optic Modulator he output of the amplifier goes to a photodiode The e attenuator
210. nent 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 Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 WAS A 68 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP LIGHT EMITTING DIODE SOURCE pecifications Single mode SM Parameter 1310 nm 1550 nm Peak wavelength 1310 20 nm 1550 20 nm 3 dB width gt 40 nm gt 40 nm Spectral ripple RB 0 1nm 0 35 dB 0 35 dB Total power 0 dBm 0 dBm Modulation 0 2 to 20 kHz Stability 15 minutes 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 24 x 39 5 cm Weight 5 kg Multimode MM Parameter 850 nm nm 1550 nm Peak wavelength 850 20 nm 20 nm 1550 20 nm Total power 3 dBm 3 dBm 3 dBm Modulation 0 2 to 20 kHz Stability 15 minutes 0 01 dB Connector type FC
211. noise under light on logic 1 then ligh gic 0 and limiter threshold setting is optimized by way of BER characterization Transponders include Mux Demux functio amp ile line cards include framing functionality BER measurements within the specified dyna ge validate proper operation of these functions and flush out stuck bits Q The level of performance under all Cy tives will depend on the actual data pattern due to data pattern dependent attributes ectro optic technology used At the component and transmitter receiver level th easurements exclude error correction attributes of the full system protocol C ox Optical Optical Power Reference Pattern Generator Laser ulator Attenuator Meter O E Error Detector i l 10 A i ee et S DUT Q Rx Comp Pattern Optical Optical Optical Power Reference Generator Laser Modulator Attenuator Meter O E Error Detector DEE ER Lot Lio _t TE gt DUT XPDR LC Pattern Optical Optical Optical Power Reference Generator lasar Modulator Attenuator Meter O E Error Detector 206 Ref Cal Troubleshoot Ref Cal Troubleshoot Path Block NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Generalized Bit Error Rate Measurements Sa Aaa Measurement Method Guidance on how to perform Bit Error Rate BER characterizations are provided through references in the GR 253 Core Telecom and IEEE 802 3 Datacom standards that in tu
212. nsertion Loss 1310mm lt 1 7d0B lt 2 0dB 4 32 Normal 280 189 57 15W Insertion Loss 850mm lt 2 2B lt 2 5dB Extended 260 169 38 Normal 310 230 120 ili 36 64 30W Pa E Extended 285 300 110 Return Loss gt 40dB Crosstalk lt 50dB g Q Switching Time Palos The product numbering follows Environmenta D Maximum Optical Power 27d0Bm A 4 A o AoA Switch Lifetime 10 Cycles Qoerating Temperature 5 to 45 C Normal Environment lt 85 RH non condensing Qperating Taare 10 to 60 C Extended Environment lt 90 RH non condensing Storege Temperature 40 to 70 C Nommal Environment lt 40 RH non condensing T ST Storege Temperature 40 to 70 C Q Polish Extended Environment lt 95 RH non co U UPC P PC Qalificatia Designed to meet A APC Noal Environment EN60950 Fibre i Ficati 4 1 Single mode 9 125um Cet z tg 8 Multimode 50 125ym graded index 0 20NA GASES We lt 6 aigo sui aie Telco 073 9 Multimode 62 5 125ym graded index 0 28NA EN60950 Interface R RS232 All parameters are measured excluding comectors at 1550rm and 20 C with an unpolarised source after themel eqwalisatio unless stated P Parallel amp RS232 90 less than specified value and no value more than 10 greater than specified Protocol Measured as per Telcordia GR 1073 CORE section 4 2 11 S SCPI 1 Measured using 3 patch cord method as defined in TIA EIA 526 14A C Command Line Interface 5 Switch will qoerate on dark fibre Vo
213. nt from R amp D to production source in the Source Optics Module SWS20010 Upgrade packages from legacy SWS systems to the SWS2000 platform are is a class 1 The Tunable Laser Source available to ensure that existing SWS users receive the maximum benefit from SWS17101 and SWS18101 is a class 3B laser their existing capital infrastructure Both are classified per IEC standard 60825 1 2002 and comply with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 INVISIBLE LASER RADIATION CLASS 3B LASER PRODUCT OID Q Q M IEC 60825 1 2002 IEC 60825 1 2002 MAX 500 mw 700 1680 nm 177 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase SWEPT WAVELENGTH SYSTEM SWS2000 Continued r ADDITIONAL STATIONS SWS directly measures IL PDL and average loss as a function of wavelength RL sourceorncs i PENEAN ante is measured with the optional RL modules SWS20005 Using the raw IL and MODULE fE ee 0o00 i swsa001082 E E wo Ponmonueseusision PDL data the application software provides a comprehensive set of analysis onas g EO TE Bessssssy 3 tools that calculate sere p e e BEE at BSSSSS5558 22 Loss at peak me 2 2 rom mes Center wavelength from x dB threshold e ose 7 Loss at cente
214. nter or on ITU Average FSR for interleaver 172 Uniformity of interleaver bands NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Aod JDS Uniphase m SWEPT WAVELENGTH SYSTEM ENVIRONMENTAL MONITORING APPLICATION SWS EMA Specifications Swept Wavelength System Environmental Monitoring Application SWS EMA Option System Performance Single Output Source Optics Module Wavelength range 1520 to 1630 nm C L band 1420 to 1530 nm S band Absolute wavelength accuracy 2pm Measurement resolution lpm Maximum number of device channels 160 input 160 output Minimum test interval 6 minutes Minimum test duration 1 hour Loss measurement repeatability 0 05 dB 0 to 25 dB device IL includes polarization state averaged IL 0 10 dB 25 to 45 dB device Loss measurement resolution 0 01 dB RL measurement range 55 dB O Polarization dependent loss PDL measurement repeatability 0 02 dB 0 to 20 dB de PDL measurement resolution 0 01 dB Maximum slope resolution 10 dB pm 0 t evice IL Measurement time IL mode 10 s pe K any measurement PDL mode 40 s ges port any measurement s Scan speed 1 System monitors changes with respect to initial conditions in IL an ON a challenges 2 Using SWS15107 A PDL optimized Detector Modules q 173 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 49
215. o 1010 1 Configurations e Up to 16 ports in 3U chassis functions as2x14to8x8 e Up to 32 ports in 7U chassis functions as 2 x 30 to 16 x 16 Up to 48 ports in 14U chassis functions as 2 x 46 to 24 x 24 changes In traditional switches the number of input ports and number of output ports are known and fixed and the resulting connectivity is of an input port to output port nature In the SGRM series switch the only variable is the total number of ports which can then be dynamically allocated as input ports or output ports or as combination input output ports such as a transceiver This architecture allows for a 16 port switch to function as any of a number of matrices ranging from a 2 x 14 matrix up to an 8 x 8 matrix with no hardware or electrical changes The SGRM reconfigurable matrix switch is built using instrumentation grade stepper motors for high optical performance and long term stability Units are rackmountable with latching optics direct front panel keypad control on 3U only as well as remote GPIB RS 232 interface ports The SGRM is available in sizes up to 48 channels in standard 3U 7U and 14U chassis 97 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE MATRIX SWITCH AND RECONFIGURABLE MATRIX SWITCH 98 Continued Sample SGRM Configuration Any single port 1 8 can connect to any other port directly For example used
216. o frequency RF modulation is applied through an SMA connector 50 Ohm impedance on the front panel of the cassette The RF path is an unamplified connection directly to the laser through an integrated bias T NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP DFB LASER ANALOG MODULATION Specifications Parameter Specification Maximum radio frequency RF input power 13 dBm Wavelength 1550 1 nm Wavelength accuracy 0 1 nm Laser peak output power 10 dBm Laser power uncertainty 5 Stability 24 hours 0 1 dB Side mode suppression ratio SMSR gt 30 dB Optical isolation gt 30 dB Optical return loss RL gt 40 dB Relative intensity noise RIN lt 157 dB Hz NN Recommended calibration period 1 year S Spectral linewidth lt 3 0 MHz O Bandwidth 1 GHz Second order distortion lt 34 dBc Third order distortion Operating temperature Storage temperature Dimensions WxHxD lt 44 dBc 10 to 40 C cm Weight 1 At full power 2 After one hour warm up 3 Constant temperature within 25 3 C 4 Ip Top 35 OMI F1 595 25 MHz F2 553 25 MHz x gt 30 to 60 4 06 x 13 E lt gt 57 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP DFB LASER ANALOG MODULATION Ordering
217. odels with the flexibility and modularity of Dense wavelength division multiplexing S the MAP Nine standard configurations are available to meet your needs The DWDM transmission for multi amp n O MAP EDFA has a saturated output power ranging from 14 dBm to 21 dBm applications features noise figures as low as 3 3 dB and has gain flatness better than 1 4 dB SONET SDH systems for single channe The MAP EDFA s are available for operation in the C or L band applications The MAP EDFA models provide specialized variants and optical performance Optical signal to noise ratio OSNR not available in the Benchtop EDFA line Additional EDFA models are available experiments in the Benchtop EDFA product line for applications requiring higher saturated power or operation in the C L band Safety Information This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 ADTA Se AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm 19 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP ERBIUM DOPED FIBER AMPLIFIER a JDS Uniphase pecirications Parameter 1546 1550 1552 1554 1558 1590 1592
218. of a typical Distributed Feedback DFB laser is less than 100 MHz an Optical Spectrum Analyzer OSA does not provide sufficient resolution Tunable PC 3dB RCV Electrical Laser Spectrum Analyzer DUT the desired beat tone on the electrical spe yzer ESA The polarization of the laser is adjusted to maximize the beat tone The line then obtained by measuring the FWHM of the beat signal Measurement Method The measurement coyggi AN the tunable laser wavelength to obtain Product References This test is usu lly tfflt up from a discreet set of instruments The electrical spectrum analyzer can be obtai software for this measurement Recently some vendors have developed a complete Qj e measurement solution The parts required for a modular approach are shown PN Tunable Laser Qr Tunable Laser Polarization Co AP Polarization Controller 3 dB ome MAP Utility ESA external vendor lt lt MAP Receiver O 212 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Noise Figure Source Subtraction and Interpolation ee Devices Erbium Doped Fiber Amplifiers EDFAs Semiconductor Optical Amplifiers SOAs Introduction One of the problems with optical amplification is that noise is generated during the amplification process The noise figure is the ratio of the input signal to noise ratio to the output signal to noise ratio A key issue is that noise should be measured at the same wavelength
219. ol signal Switching can be done by applying either a direct electrical or TTL control The SW series of switch is available in both single mode SM and multimode MM The use of collimating optics minimizes the insertion loss IL and improves the repeatability and stability of the optical parameters The switch is optically passive and therefore is transparent to signalling formats Configurations can be optimized for bi directional performance as a factory option NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com SMALL CHANNEL COUNT SWITCH MODULE a JDS Uniphase Dimensions SW1x1 SW1x2 A Switch Configurations 523 13 3 200 5 1 m 31 8 530 13 a 7 J ml 125 3 2 ih 8 gy 1 339 34 0 D FO bn D m 40 1 0 2 AN Mounting hole 1 339 34 0 E 26 7 0 0 120 3 0 thru 680 17 3 k use 4 40 cap screw 1 1 575 40 0 m2 5 cap screw 2PLCS Package A 0 120 3 0 thru use 4 40 cap screw M2 5 cap screw 2PLCS 200 5 1 7 m 31 8 0 in 530 13 q 3 2 h ih 1 339 34 0 1 575 40 0 E 0 40 10 0 2 514 63 9 118 3 0 2 750 69 9 1 680 17 3 Package B 111 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase
220. olarization Ext fc tio ER with the power measured in mW is defined as Qy PER 10log P in Prax Standard FIA Fi tic Test Procedures EIA 455 193 Polarization crosstalk method for Polarization aiig Optical Fiber and Components EC 6 300 3 40 Fibre optic interconnecting devices and passive components Basic test and measurement procedures Part 3 40 Examinations and measurements ER of a polarization maintaining pm fibre pigtailed connector Product References The parts required for a modular approach are shown below Polarization Controller MAP Polarization Controller Polarizer MAP Polarization Controller Power Meter MAP Power Meter Broadband Source MAP Broadband Source Tunable Laser MAP Tunable Laser 221 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Polarization Mode Dispersion Fixed Analyzer Method ee eet __ Devices Fiber isolators circulators Introduction Polarization Mode Dispersion PMD is the variation in delay with polarization state This leads to pulse broadening For systems such as OC 192 and OC 768 PMD results in eye closure The main source of PMD is the transmission fiber The best fibers have PMD of 0 08 ps km while older fibers may have 1 ps km or more Other sources of PMD include the isolators and erbium doped fiber used in amplifiers Tunable Polarization gt Power pur Polarizer Laser Controller Meter Measurement Method The w
221. ons M xN where M represents inputs and N represents outputs or each module Sensing applications can operate as independent switches The switch module is available in two package sizes Package size 1 can accommodate up to two switches with total channel count up to 50 Package size 2 can accommodate up to four switches with a total channel count up to 100 Safety Information Complies with GR 1073 The operation of the switch is based on proven JDS Uniphase s expanded beam lens technology utilizing a precision stepper motor to align optical channels The use of collimating lenses minimizes insertion loss IL The design is optimized for high return loss RL serial interface RS 485 It is designed for mounting on a printed circuit board or within a module for OEM applications 105 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase LARGE CHANNEL COUNT SWITCH MODULE 106 Continued Custom configurations and integration of passive components with the switches in one of the two package sizes are also available for this series of switches Configurations The switch module is offered in a standard chassis with standard software that can control numerous configurations as shown 1xN A single switch with 1 x N cone N up to 100 MULTIPLE 1 x N Q Up to four 1 x N switches total channel count of up to 100 for example four 1 x 25 optical swi or two 1 x 50 sw
222. optical signal paths abg6lut ition encoders and latching actuators capable of supporting both single mode and m ode optics The SMM modules are ideal for a wide range of sensing and monitoring applications as well as matrix modules to be integrated into a custom portable test instrument Page 93 Programmable Matrix Switch and Reconfigurable Matrix Switch SG and SGRM series The SG and SGRM series of switches are flexible rackmountable cross connect switches based on the proven opto mechanical switching technology of JDS Uniphase True non blocking optical matrix arrangement in these switches allows for unprecedented signal routing with large channel counts 32 x 32 or 16 x 48 while maintaining very low losses during both power on and power off states latching optics Their extensive cross connection capability makes them suitable for a broad range of applications ranging from general purpose testing in labs to automated multi port optical device testing and characterization The SG series provides a traditional M input to N output non blocking connection capability whereas the SGRM series of re configurable matrix switches allows for virtually unlimited any to any port connection Additionally the SGRM can be user configured expenditure Al the switches in these series are available in Single mode and multimode Optional redundant dual line power supplies for special applications are also available Page 96 8 1 NORTH AMERICA
223. or completeness thereof is not guaranteed and no responsibility is assumed for any TEET TEES Te SCT SSIS ai Tiss aT Ty MATS OCS OEEO MIT ie ise Ore pTO roren pper firs Cnt pia reserves the right to change at any time without notice the design specifications function fit or form of its products described herein part number MAP 2A08 is also available including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 1 8 2005 JDS Uniphase Corporation All rights reserved 10116396 Rev 008 03 5 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP Erbium Doped Fiber Amplifier EDFA Series Key Features High output power and gain rs e Low noise figure a Amplifier Monitoring and alarms For stand alone applications the MAP EDFA s may be used as a benchtop Applications ultiple Application Platform MAP Erbium Doped Fiber Amplifier In line pre amp and booster amplifier A Cassette combines the optical performance of the traditional emulation JDS Uniphase EDFA benchtop m
224. ors Input voltage 10 240 V AC 50 to 60 Hz Power consumption V A Maximum Packaging Half Csi and 19 inch rackmount kit Operating temperature 0 to 50 C Storage temperature Qy 40 to 70 C Humidity i 95 RH non condensing from 0 to 45 C Dimensions W x H x D 21 2 x 8 9 x 35 5 cm Weight gt 4kg 1 Saturated Output Power measured At 1550 nm at Pip 4 dBm for model 1552 At 1590 nm at P 0 dBm for model 1592 and 1598 At 1590 nm at P 2 dBm for model 1596 gt At 1550 nm at P 4 dBm and at 1590 nm an Qg 0 dBm for model 1562 and 1564 2 Noise figure measured At Pin 4 dBm for model 1552 and 1592 At Pip 2 dBm for model 1596 At Pj 0 dBm for model 1598 At Pj 20 dBm for model 1562 and 1564 3 Small signal gain measured At Pj 20 dBm for model 1552 1562 1564 and 1592 At Pin 2 dBm for model 1596 At Pip 0 dBm for model 1598 4 Flatness optimized for Pin 2 dBM for model 1596 Pin 0 dBm for model 1598 130 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP ERBIUM DOPED FIBER AMPLIFIER For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample OAB1554 20FPO OAB 2 L T
225. ors switches attenuators and couplers Included in This Section a JDS Uniphase Backreflection Meter COMMUNICATIONS INSTRUMENTATION Applications Connector backreflection loss testing Component testing O Installation verification Quality assurance acceptance testing Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Meets the requirements of Class 1 in standard IEC 60825 1 2002 and complies with 21CFR1040 10 except deviations per Laser Notice No 50 July 2001 CLASS 1 LASER PRODUCT IEC 60825 1 2002 Key Features Wide wavelength range IL and backreflection capability Typical backreflection power sensitivity of 75 dB IL and power measurements to 80 dBm Convenient foot pedal for data logging Direct display of measured backreflection power or insertion loss for accurate ction measurements e SPE xtraneous backreflection ne verified using calibrated calibration mode t case for safer and easier portability The JDS Uniphase Backreflection Meter is a convenient portable direct display instrument used for the measurement of backreflection insertion loss and power of connectors components and systems With a single output port the meter is ideal for jumper manufacturers The meter can be equipped with one or two built in laser sources Sources available are 850 1310 and 1550 nm for multimode meters and 980 1310
226. ower measured in mW as ER 10l0g Pain Prax min Standards TIA 526 4 OFSTP 4 A Optical Eye Pattern Measurement Procedure Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below Laser Source MAP DEB Laser Reference Receiver MAP Receiver ttenuator recision Attenuator ptical Splitter tility Power Meter MAP Power Meter Oscilloscope with O E external vendor Pattern Generator external vendor 203 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Eye Mask Product References This test is usually built from a discreet set of instruments The parts required for a modular approach are shown below Laser Source MAP DEB Laser Modulator external vendor Reference Receiver MAP Receiver Power Meter MAP Power Meter Oscilloscope with O E external vendor Pattern Generator external vendor Attenuator with Tap MAP Precision Attenuator 204 Devices Directly modulated lasers Distributed Feedback DFB directly modulated lasers VCSEL modulators transmitters transponders transceivers Telecom Datacom line cards Optical Scope Eye cease LaserorDUT Modulatororl CORSA OPtfower ate DUT Method ked ieo tet DUT paw oot Ref Cal Troubleshoot Path Block Introduction As a quick overall quality Kay an eye mask test aids production by defining keep out regions instead of a
227. pendent loss PDL measurement option Multimde MM fiber option I to be incorporated into modules and transmission systems fiberoptic acturers must show that their devices meet the relevant standards for performance and reliability Standards vary between industries but some element of testing over an extended temperature and humidity range is required co All standards require that a representative number of samples of the device be subjected to a program of environmental challenges high and low temperature storage and temperature cycling An environmental testing program might consist of 3 to 6 stages of temperature humidity challenges The device characteristics are required to be measured before and after each stage and in some cases continuously or at intervals during the stage Removing all the devices from the environmental chamber for optical measurements is simply not practical It is this measurement requirement for which the JDS Uniphase Environmental Test Systems have been designed Our Environmental Test Systems are integrated automated test facilities intended for long term reliability testing of optical components under environmental stress conditions such as those called for in Telcordia specification GR 326 CORE GR 910 CORE GR 1209 CORE and GR 1221 CORE Components under test are subjected to a range of environmental conditions in a test chamber usually over a period of many weeks Chamber conditions are logged
228. peration and analysis of passive component characterization using the Swept Wavelength System SWS With plenty of hands on practice and discussion this training course gives you theory in addition to introducing you to all the features of the hardware and SWS software provided with your SWS Students will also be asked to demonstrate How to verify the calibration for wavelength and power of the system and re calibrate as required Troubleshooting techniques Guides and tools set Who Should Attend Individuals responsible for the implemen Gin f test systems or equipment Individuals involved in the set up operation 8f maintenance of this equipment Individuals involved in the sale or desggration of this equipment Key Benefits N Provides key information Qj iliarity for those involved in the purchasing sale application operation maintenance Q onstration of this equipment sales technical support purchasing or applfca gineers Provides hands o nce and real time set up of equipment Allows effegg icient set up to prepare SWS for operation Allows pr easurements to validate the correct system operation new installation or tio re instal Provi seful troubleshooting techniques and information to reduce production downtime amp etailed use of the provided SWS software troubleshooting and calibration tools Cour Specifics Course format Instructor led Group size Limited Location JDS Uniphase facility or on
229. please contact our global sales and customer service team to discuss the potential for specialized solutions UL is a registered trademark of Underwriters Laboratories Inc Windows is a registered trademark of the Microsoft Corporation National Instruments is a registered trademark of the National Instruments Corporation Telcordia is a registered trademark of Telcordia Technologies Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21042477 Rev 004 03 05 1 6 9 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDS
230. pment In a typical application an optical switch enables increased throughput and parallel processing through simultaneous testing of multiple parameters of one or more devices without repeated physical reconnections This substantially increases test equipment utilization and reduces test time thereby reducing the cost of ownership of test equipment Switch operation is based on JDS Uniphase s proven expanded beam lens technology combined with one of several alignment technologies These switches are unique in their operational stability excellent repeatability low insertion loss and high reliability which make them ideal for component and system testing At JDS Uniphase we offer turnkey solutions for all Included in This Section Switch Selection Guide SUIT aii Pau ME Bench top Rackmount Switches SB SC and SCG series The SB SC and SCG series of programmable opto mechanical switches are designed to connect multiple fiber optic input channels to any of N output channels In the SB series of switches the number of input channels can go up to 2 and number of output channels up to 48 For the SC series up to 4 input channels can be accommodated with up to 90 outputs on a 3U SC and up to 180 outputs on a 6U SC The SCG series of switches allows up to 45 input channels to be switches simultaneously single command no inter channel lag time maintaining very low insertion loss and PDL The unique design of the
231. pment R amp D outputs with the optical schematic corresponding to input output labels The compact switch assembly s optical units are controlled by the front panel keys Safety Information and GPIB or RS 232 interfaces LabVIEW drivers are available Complies to CE requirements plus UL3101 1 The Switch Assembly can be packaged in either a 3U or a 6U high rackmount and CAN CSA C22 2 No 1010 1 unit depending on the number of optical elements required a Custom Switch Assemblies are also available in our Multiple Application Specifications Platform MAP platform as MAP SA modules The MAP SA solution JDS Uniphase customizes each switch provides the capability of integrating various MAP compatible switches like assembly to meet your specifications the SW and SKB along with attenuators tunable filters passive components such as tap couplers and all other MAP based cassettes The MAP SA modules can be made in any size from single width to a full 8 wide cassette allowing all components to be pre configured at the factory for easy installation at the mer si 124 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase CUSTOM SWITCH ASSEMBLY Continued INPUTS 1xN 30 70 OUTPUTS LabVIEW is a registered trademark of National Instruments Corporation UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recomm
232. pplication Platform Sources Switches Environmental Test Systems Swept Wavelength Systems Transmitters Receivers R SERVICE utions for CAREERS Search Site Map Related Information Contact Customer Service Instrumentation Catalog 2004 PDF 9MB Fiberoptic Test and Measurement Reference Guide PDF 1 1 MB Switch Solutions Find the right balance in switch solutions optical performance and cost effectiveness New Optical Cross Connect Switches Optical Switch Module OSM PDF 312 KB designed for OEM integration Optical Switci OST PDI 10 ANSI and ETSI rack equipment practice www jdsu com instrumentation The information you need is at the click of a mouse Visit our Website for the latest test and measurement developments from JDS Uniphase and for valuable resources including Application Notes Datasheets Multimode Testing Page Drivers and Software Resources software firmware drivers sample VIs Sales and Customer Support Contact Information Access to Technical Experts NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Instrumentation Technical Support NORTH AMERICA Toll Free 800 406 9559 Toll Free Fax 800 898 8537 Tel 613 843 3000 Ext 4999 Fax 613 843 3333 E mail support jdsu com OUTSIDE NORTH AMERICA Toll Free 800 4069 5599 Toll Free Fax 800 7777 5378 Ch
233. put channel C config 001 1 output channel Code Cable Length 3mm diameter 2D 2 input channels D config T Fiber Type um 001 1m 2E 2 input channels E config 084 84 output channels 9 125 003 3m 2F 2 input channels F config A 1 50 125 009 9m 3D 3 input channels D config 180 180 output channels 2 62 5 125 000 Not applicable bulkheads only 3E 3 input channels E config 4 100 140 3F 3 input channels F config Qy 4D 4 input channels D config 4E 4 input channels E config Code Wavelength Range nm 4F 4 input channels F config F 1270 to1670 o A Q 850 to 1350 MM only 1 Bulkheads and pigtails cannot be mixed in the say pan custom ordered B 750 to 940 MM only 2 Single height 84 output channel maximum Doul ight 180 output channel maximum 3 For reverse direction use bidirectional Bulkhead Limits Bulkhead Type Max Count Including Commons 3U 6U FC PC 60 120 FC APC 60 120 SC PC 60 120 SC APC 60 120 If the configurations available do not meet your performance requirements please contact our global sales and customer service team to discuss the potential for specialized solutions 91 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase z BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Ordering Information SCG Model For more information on this or other products and their availability please contact your local JDS Uniphase account
234. que The reader is referenced to the fixed wavelength PDL method as general introduction Due to the sweeping nature of the measurement only the 4 state method is practical for PDL Communication PIAL PERSE Ee Re Se Measurement Receiver N Swept Source Source Optics Power Module Meter Signal aasi rra O DUT Cutback an Measurement Met Wavelength S The source Power Meter ge wavelength measurement technique as embodied in the Swept S uses a continuous sweep of a tunable laser to generate the optical source ule provides system co ordination and real time measurement of the optical wavelength A Wolarization controller in the signal condition path is used to generate the 4 8 8 P 8 ortho states for polarization across 4 serial scans This wavelength information is 8 P 8 com ted through a communication channel that can be embedded optically on the same 8 P y fi s the source laser or through electrical means In the SWS the measurement receiver is similar 8 to t configuration to the two power meters used in the fixed rT eT wavelength method however they mp m are built into a single measurement unit and can be easily expanded As Toot Tooo Toro Topo in the fixed wavelength technique a m Tous a carne B gt Tonic two step process is necessary and the fundamental loss calculation remains the same To calculate the F 2 gt i Tomi Moo VMo7 Moz Mo3
235. r 100 hours 1 dB up to 65 dB over 100 hours Polarization repeatability 0 08 dB over 100 hours with fusion splices joi N A SW4 and SW5 and minimum system configur Measurement timing IL RL lt 2 s measurement T IL RL lt 2 s measurement High RL PDL lt 5 mesum Y Sources available up to 4 internal 1 external 1310 1490 1550 1625 10 nm 850 1310 1550 20 nm Fabry Perot Laser Qy Light emitting diode LED Optical power at device under test DUT gt 10 dBm gt 25 dBm Source stability at 23 C 0 01 dB for 20 2 nm center wavelength 1 dB for otrs for 2000 hours General Number of channels AN 160 input 160 output Number of reference channels Q 2 Switch lifetime gt 10 million cycles Equipment warm up time 4 4 hours can be left on indefinitely with no adverse effects Input voltage 220 V AC 50 Hz and 100 V AC 60 Hz Power consumption Computer control 100 V A maximum PC supplied q National Instruments GPIB controller board installed OCETS software and environmental chamber driver installed Print out to any Windows printer Data file format compatible with Windows based spreadsheets Mechanical configuration The equipment excluding the computer is installed in a single full height 19 inch 48 26 cm rack WxH xD 22 x72 x 36 inches Accessibility to lasers and power meter for periodic calibration Rack fans replaceable air filter The computer can be located on a table at a maximum distance of 5 m from t
236. r availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample PE3 1FP eO OO Code Model Code Connector Type 3 PE3 FP FC PC UL is a registered trademark of Underwriters Laboratories Inc 4 PE4 FA FC APC All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 1 44 2005 JDS Uniphase Corporation All rights reserved 10109637 Rev 004 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 instruments jdsu com WORLDWIDE 800 5378 JDSU a JDS Uniphase Optical Delay COMMUNICATIONS INSTRUMENTATION D JDS Uniphase nos ornca Se
237. r cassette Qy a without coupler b with coupler 39 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP VARIABLE BACKREFLECTOR a JDS Uniphase pecifications Parameter Single mode fiber SMF Multimode fiber MMF Without With 50 50 Without With 50 50 Coupler Coupler Coupler Coupler Wavelength range 1260 to 1650 nm 750 to 1350 nm Maximum backreflection level gt 5 0 dB gt 9 5 dB gt 5 0 dB gt 9 5 dB Minimum backreflection level APC PC lt 60 lt 45 dB 30 lt 30 dB Insertion loss IL IN to OUT N A lt 5 0 dB N A lt 6 0 dB Relative backreflection setting accuracy 0 2 0 4 Backreflection setting resolution 0 01 0 01 Fiber type 9 125 um 50 125 or 62 5 125 um Polarization dependent loss PDL lt 1 0 dB N A Maximum optical input power 00 mW Calibration period ears Warm up time 0 FAnutes Operating temperature to 50 C Storage temperature 30 to 60 C Humidity lt 90 at 23 0 at 50 C relative non condensing Dimensions W x H x D i width cassette 4 06 x 13 24 x 39 5 cm Weight 1 1 kg single 1 3 kg dual At 1310 15 and 1550 15 nm for SM units and at 850 15 nm and 1310 15 nm for MM N Including one mated pair of connectors At 23 5 C From maximum backreflection to 40 dB for SM units and from maximum TO 25 dB for MM units Ordering Information Q
238. r wavelength rit Bandwidth at x dB threshold 3 Na Crosstalk left right and cumul N eet a e Flatness These parameters are calc A plative to the measured peak ITU grid or user defined grid Typical Configuration of SWS2000 The SWS is deliver set of DLLs that can be used to develop software to suit custom test irements The DLLs function through the SWS receiver hardware a KO sce to all SWS functionality Using the supplied DLLs a fohs may be developed in Visual Basic C C or LabVi 1ronments RG ate polarization controller located within the SOM PDL and average l easured quickly as a function of wavelength Four polarization states t 90 45 and circular polarization are measured and the Mueller matrix analysis is used to accurately determine PDL at all wavelengths scanned amp S When the very highest accuracy PDL measurements are required a special version of the detector module should be used The SWS15107 A contains specially selected and tuned components to allow PDL measurement to an accuracy of better than 0 01 dB This module is supplied with a fixed FC APC connector All specifications listed are met simultaneously No change in wavelength accuracy 2 pm or scan speed 20 nm s is required to obtain a 70 dB dynamic range 178 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase SWEPT WAVELENGTH SYSTEM SWS2000 Continued
239. re information on this or otr EN cts and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 W SU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP 850 nm Optical Transmitter MAPT 110031FP 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 All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All
240. ries Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21042184 Rev 005 03 05 3 7 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP Variable Backreflector Key Features 0 01 dB resolution e Operation at 850 1310 or 1310 1550 nm 4 aaa e SM or MM fiber DEVICE 1 DEVICE 2 stars BEAM enanto For stand alone applications the MAP Variable Backreflector may N be used as a
241. rights reserved 21039845 Rev 004 03 05 31 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION MAP 1310 to 1550 nm Optical Receiver For stand alone applications the MAP 1310 to 1550 nm Optical Receiver may be used as a benchtop Applications Transmitter testing Bit error rate BER testing System testing Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 32 Key Features Broad wavelength range Wide frequency range e Analog and digital output e Adjustable limiter threshold level e Operational from 155 Mb s to 12 5 Gb s data rates Optical power monitoring The Multiple Application Platform MAP 1310 to 1550 nm Optical Receiver Cassette is a broadband avalanche photodiode APD based receiver The receiver provides both an analog output and a digital limited output The limiter threshold can be set automatically or manually In addition the unit contains an optical power monitor The receiver can be used for applications such as testing of transmitters and transceivers By combining the receiver with other MAP cassettes including switches and attenuators compact test facilities can be easily assembled The analog output is provided via an automatic gain controller AGC Therefore the o
242. rn typically reference TIA EIA materials similar to those listed below BER measurements require a Pattern Generator PG and Error Detector ED interconnected by test and measurement building blocks along with the Device Under Test DUT The pattern length and sequence depend on the testing For most measurements a 231 Pseudo Random Binary Sequence PRBS is used Other patterns may be used to test specific conditions The optical source output is level adjusted by way of an optical power meter to account for the optical path to the DUT or reference receiver to establish the specified measurement level Splitters are used to eliminate reconnections Using the attenuator to vary the optical power level a series of BER measurements are recorded and presented as a log linear plot of BER S input power in dBm Standards TIA 526 3 OFSTP 3 Fiber Optic Termi ipment Receiver Sensitivity and Maximum Receiver Input Product References This test is ilt from a discreet set of instruments The parts required for a modular approach are s elow Laser Source aN FB Laser Modulator Qy P Transmitter Reference Receiv KY AP Receiver Attenuato QY MAP Precision Attenuator Power Met MAP Power Meter Clock ever MAP Clock Recovery tor external vendor rof Dy erfmGenerator external vendor 207 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Insertion Loss Fixed Wavelength Product References This test can be
243. rom 15 to 82 Modulation depth is fixed at 100 e WN Measured at full power 60 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP FABRY PEROT LASER For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample MAPL 1F072FA MAPL 1F Code Output Power 0 Standard Code Connector Type FP FC PC Code Wavelength nm FA FC APC 1 850 2 980 3 1310 Code Fiber Type um 4 1480 1 50 125 5 1550 2 62 5 125 6 1625 7 9 125 Qy 7 1310 1550 8 Flexcor 1060 8 1650 9 850 1310 WN A 1550 1625 Qy B 1550 1650 C 1480 1550 UL is a registered trademark of Underwriters Laboratories Inc Flexcor is a registered trademark of Corning Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specification
244. rtainty 5 NN Stability 15 minutes gt 0 005 dB S Stability 24 hours gt 0 03 dB O Resolution 0 01 dB Attenuation range 10 dB Internal modulation Range 0 2 to 400 zo Depth 0 to 100 Duty cycle 15 to 85 Function Squar soidal and Triangular Spectral properties Width coherence control off Width coherence control on MHz Side mode suppression ratio SMSR dB Optical signal to noise ratio OSNR 30 dB peak to maximum background Optical isolation 30 dB Relative intensity noise RIN 140 dB Hz Recommended calibration period 1 year Operating temperature 10 to 40 C Storage temperature 30 to 60 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 0 5 kg 1 At full power 2 After 1 hour warm up 3 Constant temperature within 25 3 C 4 Not including options 5 For maximum power to maximum power 8 dB 6 Nominal duty cycle is accurate from 0 2 to 100 kHz Analog modulation bandwidth is 400 kHz 53 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP DFB LASER
245. ruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase Multichannel Backreflection Meter Key Features SM and MM models available Measurements at 850 1310 1480 1490 1550 1625 or 1650 nm Integrated switch included in the calibration Lysine se meen Camas Multidisplay mode R Applications The JDS g Backreflection Meter performs a wide range of SM fiber connector and z le or multimode MM return loss RL and loss measurement component testing Rpts from single component testing to automated multifiber Ribbon fiber measurements e primary functions of high sensitivity RL measurements and power e MM fiber connector testing Ae can be augmented by adding multiple output ports and multiple rnal light sources Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 0 he meter is available with 1 4 8 12 16 20 or 24 output ports A multidisplay mode lets the viewer see multiple test results at a glance Meets the requirements of Class 1 in dard The meter is used for single fiber and ribbon fiber connector measurements IEC 60825 1 2002 and complies with The use of hybrid jumpers allow a quick change of the connector type without 21CFR1040 10 except deviations per Laser limiting the RL range The meter is also available with 2 or 3 internal sources for Notice No 50 July 2001 measurements at 850 1310 1480 1490 1550 1625 or 1650 nm The 2 mm InGaAs de
246. s Bulkhead Type Max Count Including Commons FC PC 24 FC APC 24 SC PC 24 SC APC 24 If the configurations available do not meet your performance requirements please contact our global sales and customer 90 service team to discuss the potential for specialized solutions NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase se BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Ordering Information SC Model For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SC2D30043 22XBOO9FP SC HU T TET Hel OO E Code Input Port Type Code Output Port Type Code Return Loss ode Connector Type 1 Bulkheads on front 1 Bulkheads on front xX Standard S FP FC PC bulkheads maximum 60 120 2 Bulkheads on back 2 Bulkheads on back A Analog FA FC APC bulkheads maximum 60 120 3 Pigtails on front 3 Pigtails on front B Bidirect g SC SC PC bulkheads maximum 60 120 4 Pigtails on back 4 Pigtails on back st rd RL SU SC APC bulkheads maximum 60 120 C Bi Conal NC No connector a E Code Number of Input Channels Code Number of Output Channels Qy 1C 1 in
247. s function fit or form of its products described herein ading withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products 7 herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21042186 Rev 003 03 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP Light Emitting Diode Source Key Features Dual independent sources available in a single cassette Control and monitoring features 4 Leo Single mode SM Multimode MM output Internal external modulation circuitry A For stand alone applications the MAP LED C Source may be used as a Qy benchtop Applications The Multiple Application Platform MAP Light Emitting Diode LED Source Optical component spectral tests Cassette is a high power LED based light source with variable output power Systems compliance tests O High output power and excellent wavelength stability combined with built in Sensors and imaging modulation circuitry make this light source suitable for wavelength division multiplexing WDM compo
248. s jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP 850 nm Optical Transmitter Key Features 9 95328 10 3125 and 10 51875 Gb s data rates Operational from 155 Mb s to 10 51875 Gb s data rates 7 a Teoreentar e Adjustable extinction ratio TX10 850 nm 10GBASE SR W supported For stand alone applications the MAP 850 nm Optical Transmitter Qy may be used as a benchtop Q Applications The Multiple Application Platform MAP 850 nm Optical Transmitter Research and development R amp D testin Cassette is a directly modulated Vertical Cavity Surface Emitting Laser 10 Gb s Ethernet and Fibre Chann 5 VCSEL based transmitter The transmitter provides a cost effective optical Receiver components testing source for 850 nm 10 Gb Ethernet and Fiber Channel applications Dispersion penalty testing The radio frequency RF input path includes an automatic gain controller Sensitivity characterization AGC amplifier making the optical output waveform extinction ratio Manufacturing test set independent of input drive level over its specified range System testin y 8 All features are accessible from the MAP Local Interface Controller or remotely Safety Information for manufacturing test set applications This optical source cassette when installed in the MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C2
249. s versatile power meter can be used in applications using standard SM or MM fiber as well as SM or MM ribbon cable with fiber counts as high as 72 see Specifications for further details The power meter can accurately measure power levels from 50 to 3 dBm over the wavelength range of 800 to 1650 nm The detector heads are compatible with the JDS Uniphase AC400 series interchangeable detector adapters please refer to the Optional Accessories section The cassette is supplie n FC detector adapter as a standard accessory NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP POWER METER Specifications Parameter 3 mm InGaAs MAP Power Meter 10 mm Ge MAP Power Meter Sensor element 3 mm InGaAs 10 mm Ge Wavelength range 800 to 1650 nm 800 to 1650 nm Power range 80 to 10 dBm 50 to 3 dBm Fiber type SMF and MMF with N A lt 0 27 Maximum core diameter for single fiber 62 5 um N A lt 0 27 Maximum core diameter for ribbon cable N A 62 5 um N A lt 0 27 Uncertainty at reference condition 2 5 1200 lt lt 1550 nm 4 4 0 800 lt 2 lt 1200 nm 3 5 1550 lt 2 lt 1600 nm 4 0 1600 lt 2 lt 1630 nm Total uncertainty 45 5 pW 800 lt A lt 5 5 100 pW Relative uncertainty polarization 0 01 dB lt 0 01 dB spectral ripple 0 005
250. s where vibration and shock performance are critical Simple control Applications The SR series switches are manufactured for harsher environments and are Optical signal routing fiber network S specified for a wide operating temperature range of 25 C to 65 C configuration and restoration Both single mode SM and multimode MM versions of the SR Series switch Sensor switching source detection sWction connect optical channels by redirecting optical signals into a selected output reference and multisource measuremeMs in fiber This is achieved using a mirror driven by a highly precise mechanism that instrumentation products is activated via an electrical control signal Fiberoptic component testing Research and development R amp D Using collimating lenses minimizes the insertion loss IL and improves the repeatability and stability of the switch parameters The SR Series is optically passive and is therefore transparent to signalling formats and bandwidth All configurations are optimized for bidirectional performance 114 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Aod JDS Uniphase RUGGEDIZED SMALL CHANNEL COUNT SWITCH MODULE Continued De SR2x2 SR2x4 SR4x4 Dual 2x2 E e e ee 9 55 e _ _ 115 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 53
251. series optical switch is a highly flexible module with high optical performance in latching or non latching applications The full feature set and large number of optical configurations available in a common package and interface make it ideal for a wide spectrum of applications The switch connects one or two channels to one of several up to eight channels Both single mode SM and multimode MM versions are available This switch is also available in multi pack configurations for example 2 x 4 2x 6 2 x 8 D configuration Duplex 1 x 2 1 x 3 1 x 4 While in operation the switch connects optical channels by using prisms to redirect the signal from an input port into a selected output port Using collimating optics minimizes the insertion loss IL and improves the repeatability and stability of the optical parameters The switches are optically passive and therefore are transparent to signaling formats Configurations can be manufactured for bi directional performance as a factory option NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase FLEXIBLE SMALL CHANNEL COUNT SWITCH MODULE SQ Series Configurations The common package may be ordered in optical configurations as follows e 1x3uptolx8 2x4 2x6 2 x8 D configuration Duplex 1 x 2 1 x 3 1 x 4 Duallx2 SM or MM fiber 900 mm buffered fiber or 3 mm cable All units are customer configurab Latching
252. sign q Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Please use the part number below to order the MAP Multi Rate Electrical Clock and Data Recovery UL is a registered trademark of Underwriters Laboratories Inc MAPC 110EONSM All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21031275 Rev 005 03 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATI
253. signal Now only the noise is transmitted If iy i is unpolarized then it is attenuated 3 dB in both measurements The OSNR is then ca Qj om the two power readings The attenuator may be needed to keep the power levels int in the linear regime An alternative method would be to use a tunable filter and a Q in place of the OSA Product Merences This test is usually built from a discreet set of instruments The parts required fo af approach are shown below A external vendor Polarization Controller MAP Polarization Controller Polarizer MAP Polarization Controller Attenuator MAP Precision Attenuator Tunable Filter MAP Tunable Filter Power Meter MAP Power Meter 216 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Optical Time Domain Reflectometer Se O Devices Optical fiber spans Introduction Optical time domain reflectometers OTDRs are used to measure the loss in optical fiber spans They are useful for finding bad splices and connectors This device is typically used in long fiber spans as it has limited resolution OTDR DUT Measurement Method The OTDR works by sending a short high power pulse into the fiber As the pulse propagates along the fiber some of the light is scattered back towards the source This light is detected and plotted The slope of the AS the fiber loss while any discontinuities indicate losses due to connectors A Standards Telcordia GR 196 Gen
254. sink current Operation temperature 0 to 55 C Storage temperature 40 to 70 C Humidity maximum 95 RH from 0 to 55 C non condensing Dimensions W x H x D single double height 48 x 13 x 37 cm 48 x 26 6 x 37 cm excluding handles Weight single double height 9 kg 14 kg RL specification based on 1 m pigtail length Excluding connectors All optical measurements taken after temperature has been stabilized for one hour at ambient room conditions Analog version available on one and two input SC model switches C and D configurations Values shown for 62 5 um diameter maximum fiber core Drift of any channel relative to reference channel at 3 C deviation of ambient temperature over a seven day period DH u e N e Applies to SC model only 87 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES The following table lists the current configurations that are supported for the SC switch For information regarding other configurations contact your JDS Uniphase representative SB SC Switch Configuration o 4xN_ 2xN_ 3xN 2 4 2 N A N A N A N A 2U BENCHTOP 48 44 20 49 46 45 45 21 13 11 3U CHASSIS 84 84 84 84 84 84 44 26 20 85 86 87 85 85 85 45 27 21 6U CHASSIS 180 180 QN 180 120 120 1
255. spli e simplest implementation requires only an optical source ing the above optional blocks the measurement can be made rately stated input conditions The measurement is a two step evice Under Test DUT is spliced into place as shown above The eW th the power meter and the source monitor The second step requires the input fiber and measured directly It is important to ensure that the ed in the measurement so that its loss may be recorded If connectors are nnection uncertainty must be included in the reported accuracy used then U IL O PSourceMonitorldBm pur PIdBm PgourceMonitor 4B CutBack S 1 e of a tunable filter will remove background ASE noise from the source and is necessary for meas rement of devices such as channel drops or rejection filters The polarization controller or scrambler can be used to depolarize or control the source of polarization SOP For scrambling it is important to make sure that that the averaging time of the power meter is set much greater than the time it takes for the scrambler to cover all SOP It is important to remember that the measurement represents an average over the bandwidth of the optical source Standards TIA EIA 455 180 A Measurement of Optical Transfer Coefficients of a Passive Branching Device Coupler IEC 61300 3 4 Fibre optic interconnecting devices and passive components Basic test and measurement procedures Part 3 4 Examinations and measurements Attenuation
256. st nd laboratory work The attenuator has a nominal resolution of 0 01 dB 0 001 dB for the HA1 series and an extended attenuation range up to 100 dB The standard operating wavelength is 1200 to 1700 nm 750 to 1700 nm is available for use with a reduced attenuation range of 60 dB for the HA9W attenuator HA attenuators are ideal for use in such demanding applications as multichannel AM systems and high bit rate digital pulse code modulation PCM systems Discrete internal optical reflections are minimized to better than 60 dB and cavity effects are virtually eliminated All HA attenuators are offered with high return loss RL and low spectral ripple for CATV AM systems The HA2 series Programmable Attenuator provides a low wavelength dependence of 0 05 dB and input power up to 1 W 30 dBm The HA2 is suitable for a variety of applications including amplifier testing and dense wavelength division multiplexing DWDM system characterization The inherently linear design of these attenuators combined with built in calibration and offset functions allows the user to match the display to an requiring control of the absolute optical power source for the test device The built in beam blocking switch provides fast access from any attenuation setting to infinite attenuation gt 90 dB NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase PROGRAMMABLE ATTENUATOR Continued
257. su com Sample OPTX10 1013FP OPTX10 1 0 l L Ul Code Wavelength Code Connector Type o gt 1 1550 nm FP FC PC 3 850 nm 4 1310 nm Qy Code Fiber Type um Q 1 MM 50 125 Qy 850 nm wavelength only q IEEE Std 802 3ae is a registered trademark of the Institute of Electrical and Electronics Engineers UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any tra tt a att eama witttsoe ven tree Ow TOUT a prodtrero apprentie Ps eripira reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 1 42 2005 JDS Uniphase Corporation All rights reserved 21031282 Rev 007 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 537
258. su com a JDS Uniphase MULTICHANNEL BACKREFLECTION METER Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample RX3070 1122FA7 RX30 7 0 2 LJ L H L Code Source Wavelength nm 850 1310 1480 1550 1625 1650 850 1310 1310 1550 1550 1625 1550 1650 1480 1550 1310 1480 1550 1310 1550 1625 1480 1550 1625 850 1310 1550 1490 1550 1490 1625 1310 1490 1550 1490 1550 1625 ZIT TPQ APM oja PIN eC ep aj uy ay wy 1310 1625 Optional Accessories Code Number of Code Connector Output Channels Type 01 1 output channel FA FC APC 04 4 output channels SU SC APC 08 8 output channels 12 12 output channels Code Fiber J m 20 20 output 7 channels 1 16 16 output 2 24 channels 24 output C channels Qy Code Dei Ri 1 2 S 2 5m e Ae GaAs lt See Accessories document section for available detector adapters UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reli
259. tability 0 01 Q PDL measurement resolution 0 0 Maximum slope resolution 0 to 35 dB device IL Measurement time conds 0 5 seconds per channel Maximum scan speed nm s Fiber type to device under test MF 28 Maximum outputs from device under test DUT mgasu 128 Measurement stations per transmitter Up to 8 in 1 2 4 or 8 steps Detector adapters FC SC ST LC bare fiber Input voltage 110 to 230 V AC 50 to 60 Hz Receiver control Custom interface for Win95 98 2000 XP Receiver communication with computer National Instruments PCI interface card Operating temperature 15 to 35 C Storage temperature 0 to 70 C Operating humidity 80 RH maximum non condensing Dimensions W x H x D Source optics module SOM SWS20010 B 2 48 3 x 13 3 x 37 5 cm Tunable laser source SWS17101 SWS18101 48 3 x 13 3 x 43 2 cm Receiver chassis OWB10002 48 3 x 13 3 x 46 0 cm Control and detector modules Plugged into chassis 1 Wavelength resolution defined as the minimum calculated center wavelength shift 2 Does not include influence of connector 3 Device IL range dynamic range both reduced for multiple output SOM 4 RL module SWS20005 required SEE 6 High PDL accuracy Detector Module SWS15107 A using FC APC only 7 All other specifications are maintained when using a scan speed of 20 nm s 180 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase SWEPT WAVELENGTH SYSTEM SWS
260. tector is particularly useful for high sensitivity single fiber applications The 5 mm Ge detector is an economical solution for measurements of ribbon fiber connectors and can accurately measure CLASS 1 LASER PRODUCT connectors with up to 8 MM and 12 SM fibers The large surface 10 mm IEC 60825 1 2002 aa y InGaAs detector is ideal for measurements of larger fiber count ribbon connectors and can be used with wavelengths extending in the L band One FC detector adapter is supplied with the unit and other adapters such as MTP MPO or MU for ribbon fiber connector types are also available The meter is supplied with one calibrated hybrid jumper for calibration pupos and one les test tees for measurement pupos Both j pupe meed da an FC PC connector on the other end Uacalibrat d hybridi jumpers for measurements with other connector types are also available 155 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MULTICHANNEL BACKREFLECTION METER Specifications Parameter Single mode SM Multimode MM Operating wavelengths 1310 1480 1490 1550 1625 1650 10 nm 850 1310 1550 20 nm Outputs 1 4 8 12 16 20 or 24 Detector type 2mm 5mm 10 mm 3mm 5mm 10 mm InGaAs Ge InGaAs InGaAs Ge InGaAs Power range 3 to 80 3to 40 5to 40 3to 60 3to 40 5to 40 dBm dBm dBm dBm dBm dBm Relative power accuracy 0 15 dB 0 15 dB 0 05
261. tellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109630 Rev 006 03 05 1 3 1 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU COMMUNICATIONS INSTRUMENTATION Programmable Attenuator Applications Analog transmission tests e Bit error rate BER tests Loss simulation in fiberoptic links Erbium Doped Fiber Amplifier EDFA output power characterization Precise optical power control S Power meter linearity calibration QO Safety Information Complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 132 Key Features 100 dB range 0 01 or 0 001 dB resolution 0 01 dB repeatability Accuracy of 0 1 dB e Typical polarization dependent loss PDL of 0 03 dB 1200 to 1700 nm or 750 to 1700 nm wavelength ranges Built in beam block GPIB and R mote control e Single mo multimode MM fiber e SCPI le command set Option uplers or switches ower input of 1000 mW velength dependence of less than 0 05 dB N 1530 to 1625 nm range Cp Uniphase Programmable Attenuator is a high resolution extended rage programmable attenuator ideal for testing power meters and general te
262. tended period of time past the standard 1 year warranty included with every product purchased Service Agreement JDS Uniphase will customize a service agreement to meet your needs We offer emergency product replacement dedicated spare parts inventory as well as other options to meet your service requirements Ss Loaner Products Minimize service interruptions and down hile products are being serviced Request a spare loaner unit while your original ey serviced by JDS Uniphase Equipment Purchased From a Thi r Auctions JDS Uniphase will verify calib service used JDS Uniphase equipment purchased from a third party or at auction to ensur Keys for use and operating within specifications Registration and standard level of eS is equipment is also available Technical Trai JDS Unipha courses that will allow you to maximize the benefits of our products with confidencegand Wse Basic training courses show you the many features of our products allowing you to using the equipment immediately Advanced training courses show you detailed aspect he product allowing you to set up maintain and troubleshoot the product when nef sary All courses are delivered by one of our technical specialists who work with the prodtets daily On site Service Minimize service interruptions and downtime with on site calibration service This service is available for many of our products For more information about any of the options indicated or to customi
263. th the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21042477 Rev 004 03 05 NORTH AMERICA 800 498 JDSU 5378 INSTRUMENTATION LITERATURE REQUEST WORLDWIDE 800 5378 JDSU instruments jdsu com Swept Wavelength Systems Devices designed for use in dense wavele gth division multiplexed DWDM systems must e characterized as a function of wavelength T pical haracterization parameters include insertion ss IL polarization dependent loss PDL and return loss RL Advanced devices for higher speed wavelength routed or long haul systems may require measurement of the chromatic dispersion and polarization mode dispersion or differential group delay The JDS Uniphase Swept Wavelength Systems SWS are specifically designed to rapidly measure these parameters at high wavelength resolution high dynamic range and on multiple channel devices while limit
264. that reduce installation a ort efforts The switch offers low insertion loss optional latching actuators and is ind nt of data format and direction The individual modules can be set up in configurations ie from Quad 1 x 24 to Single 1 x 100 making them well suited for RFTS installations yi and monitoring medical research labs and as OEM type switches specified nye tegrators SKB series of switches have a lifetime of 120 million cycles Page 105 Small Chaghel nt Switch Module SW series Thes in a very compact and easy to interface optical switch family that currently provides fofr f single actuator switches 1 x 1 1 x 2 2 x 2 crossover and 2 x 2 bypass These compact swN hes available in both single mode and multimode fiber variants are ideally suited as additi nal routing switches in support of larger testing and monitoring installations Their small size and fast switching times make them an ideally simple and transparent solution for beam blocking of transmitters lasers switching in and out passive elements such as attenuator pads or bandpass filters or in setting up automated bidirectional testing where only one source and one power meter are available but device tests need to be done in two opposite directions Page 110 Rugged Small Channel Count Switch module SR series The SR series switches uses a simple yet very rugged actuating mechanism that is able to withstand use in a wide temperature range and is ther
265. the sinusoidal component of jitter tolerance informative 140 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com STRESSED EYE GENERATOR a JDS Uniphase Specifications Parameter Specification General Optical wavelength 850 10 nm 1310 20 nm 1550 20 nm Root mean square RMS spectral width lt 0 45 nm lt 0 1 nm lt 0 1 nm Optical fiber Multimode fiber Single mode fiber Single mode fiber MMF 50 125 SMF 9 125 SMF 9 125 Operational data rate 155 Mb s to 10 71 Gb s Data patterns PRBS 2 1 27 1 AnAiAnAi BnBiBnB 11110000 Data input internal AC coupled 0 5 Wto 1 5 V PRESET button Selects factory default OMA tting of 3 5 dB ER and OMA mode Operator interface Fro ne D interface S ti le GPIB command set Reference Mode Average optical output power gt 1dBm gt 1dBm gt 1dBm Extinction ratio at 10 3125 Gb s Pseudo random Adjustable from binary sequence PRBS 2 1 bit stream 6 to 10 dB Rise and fall time 20 to 80 lt 35 lt 30 ps lt 30 ps Vertical eye closure penalty 1 center region of eye lt 1 lt 0 5 dB lt 0 5 dB 15 using IEEE Std 802 3ae 2002 Eye Mask definition PRBS 2 1 1000 waveforms Relative intensity noise RIN Roy lt 136 dB Hz Jitter lt 0 2 UI p p input signal lt 0 1 UI p p jitter Internal Stressed Eye Mode Q Vertical eye closure penalty resulting from gt 2 33 dB
266. thin a user defined wavelength range 10 tap option for power monitoring 50 tap option for power monitoring MAP Tunable Grating Filter Cassette 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 The MAP Tunable Grating Filter Cassette is the next generation replacement of 41 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP TUNABLE GRATING FILTER Continued Grating Input a Sa DWDM The filter makes u diffraction grating to separate the input light al al discrete paths A stepper motor rotates the gratiNg t transmit the desired wavelength along the output fiber Res 0 003 nm 0 25 nm 3 dB Bandwidth 07 I I l l l l l O SBS SS ER SS E Oa SS a l l l l l l l MQ 42S SS ie SS a e a Re oaa co 2 l l l a JE a Sth es SN BS ee Bs eS ess S 13 S l l 5 20 data tes Se ee ee ee e es ee ee a SSS D l l Ns i a E EEA E E es es ez esas eas eae ea 25 l l l l l l l l 30 POT ppp tsp l l 35 tt _ 1540 1545 1550 1555 1560 1565 1570 Wavelength nm Model G filter shape shows the low IL and sharpness of the f
267. tion 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 45 MAP DFB Laser May be used to create a qu grid in which optical freq O ented by a DFB laser corresp to Me transmitter in the optical networ amp Can be selected to comply with the 50 GHz ITU grid in the C band and L band 1527 to 1610 nm wavelength ranges Page 52 MAP Fabry Perot Laser Designed to produce a stable light source at desired wavelength Offers optimal stability and features such as built in internal and external modulation capabilities and variable power control MAP Tunable Grating Filter A tunable bandpass filter that offers continuous wavelength tuning from 1420 to 1630 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 Page 41 J Source ers an amplified spontaneous mission ASE output that features flattened high power density across the C band or C L band The source provides high spectral stability Page 49 MAP DFB Laser Analog Modulation Offers 1 GHz of modulation bandwidth from front panel connector Designed to meet the needs of CATV test Low distortion ensures accurate CATV receiver test Page 56 MAP LED Source A high power Light Emitting Diode LED based light source with variable output power Page 62 11
268. tion with the use of a product or its application JDS Uniphase reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 21056894 Rev 002 03 05 117 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU INSTRUMENTATION LITERATURE REQUEST instruments jdsu com a JDS Uniphase COMMUNICATIONS INSTRUMENTATION Flexible Small Channel Count Switch Module SQ Series Applications Incorporation into customized switch S assemblies for test and measureme applications Network monitoring and testing Sensor switching Source detection selection Research and development R amp D Safety Information Complies with GR 1073 118 Key Features High optical performance High repeatability Latching or non latching Field configurable default non latch channel Wide choice of configurations Off position optional Status feedback Common a ize for all configurations Cc The JDS Uniphase SQ
269. trol Designed to meet IEEE Std 802 3ae 10 GbE testing requirements Designed to perform fast polarization dependent loss PDL measurements 4 state Mueller method Compact single width cassette e Very high angular accuracy and absolute fast axis alignmeng accuracy of The Multiple Application Platform MAP Polarization Controller Cassette 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 single width MAP Polarization Controller Cassette is comprised of three rotating elements a high extinction ratio polarizer a quarter wave plate and a half wave plate Each element can be controlled locally from the MAP local interface or remotely through the RS 232 or GPIB 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 to complete measurement test systems such as erbium doped fiber amplifier EDFA or passive component test sets NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP POLARIZATION CONTROLLER pecirications Parameter 1310 nm 1550 nm Wavelength range 1260 to 1360 nm 1420 to 1630 nm Insertion loss IL lt 1 5 dB lt 1 5 dB IL variation with wavelength 0 1 dB 0 1 dB IL variation wit
270. tsoever in connection with the use of a product or its application JDS Uniphase 2 Two switches per cassette 3 Pigtails including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products 3 Three switches per cassette 2 m long herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and 4 Four switches per cassette the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10116509 Rev 007 03 05 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com COMMUNICATIONS INSTRUMENTATION a JDS Uniphase MAP RF Switch Key Features Single or independent dual 1x2 and bypass versions ra Swit e Mechanically latching Os Built in 50 Ohm terminations For stand alone applications the MAP RF Switch may be C used as a benchtop KS Applications Q Multiple Application Platform MAP RF switch cassette is a 50 Ohm coaxial Taw source selection witch for routing RF and microwave signals at frequencies up to 26 5 GHz Routing to main analyzer S Comprising of single and dual 1 x 2 and bypass type switches these cassettes are O an ideal solution for routing 10 Gb signals between power meters receivers and Conf
271. ty 0 02 0 025 dB NN 0 03 0 04 dB Change in IL during power on off cycle latching version 0 2 0 5 dB S 0 4 1 0 dB Repeatability sequential switching 0 005 0 01 dB 0 01 0 03 dB random switching 0 01 0 0 0 03 0 08 dB Crosstalk maximum SM 80 dB Maximum input power optical ws 300 mW continuous Lifetime gt 120 million cycles Switching time first channel each additional channel Q speed 1 standard AN 25 15 ms speed 2 Q 20 15 ms Interface parallel and serial interface RS 485 Operating voltage Cj 5 0 25 V DC Power consumption 7 W maximum package 1 10 W maximum package 2 Operating temperature 35 to 75 C Storage temperature 40 to 85 C Humidity maximum 95 RH from 35 to 75 C non condensing Dimensions W x H x D fiber version package 1 78 2 x 27 8 x 140 0 mm 3 08 x 1 095 x 5 51 inch cable version package 1 78 2 x 27 8 x 171 7 mm 3 08 x 1 095 x 6 76 inch fiber version package 2 138 4 x 27 8 x 140 0 mm 5 45 x 1 095 x 5 51 inch cable version package 2 138 4 x 27 8 x 171 7 mm 5 45 x 1 095 x 6 76 inch Weight configuration dependent 0 6 kg maximum for package 1 1 kg maximum for package 2 1 All specifications referenced without connectors 2 All optical measurements taken after temperature has been stabilized for one hour 3 RL specifications based on 1 m pigtail length 4 All specifications are at speed 1
272. uct offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109653 Rev 006 03 05 44 INSTRUMENTATION LITERATURE REQUEST NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU instruments jdsu com a JDS Uniphase MAP Power Meter COMMUNICATIONS INSTRUMENTATION S Power Meter 4 DETECTOR 1 3 mm InGaAs Power Meter with Dual Detector Configuration For stand alone applications the MAP Power Meter may be used as a benchtop Applications Dense wavelength division multiplexing S DWDM channel measurements Up to 128 channels controller addtg es Amplifier characterization Up to 2 f input power Bit error rate BER testing Precise optical power control 0 01 dB Receiver and transmitter testing Safety Information This cassette when installed in a MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 Key Features Low PDL lt 0 01 dB e Wide wavelength range 800 to 1650 nm High power option 2 W Dual detector option Bare fiber measurements capability JDS Uniphase offers two types of Multipl
273. umpers and for the RL option a calibrated jumper an AC power cord and a 19 inch rackmount kit The GPIB and RS 232 interfaces are standard UL is a registered trademark of Underwriters Laboratories Inc Flexcor is a trademark of Corning Incorporated All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connection with the use of a product or its application JDS Uniphase a se Ves the Tight to change at any tine without notice the design specications unction Hit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders 2005 JDS Uniphase Corporation All rights reserved 10109642 Rev 006 03 05 INSTRUMENTATION LITERATURE REQUEST instruments jdsu com NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU a JDS Uniphase POLARIZATION DEPENDENT LOSS MULTIMETER 162 NORTH AMERICA
274. uration SB and SC S D Configuration SB SC SCG O ts 1 2 3 4 A 2 A B B c D 8 2 M N N ontiguration ontiguration The MxN configuration aligns any input with The MxN configuration allows any one of a bank any output while other inputs are aligned to of inputs to connect with any output with no adjacent outputs other connections occurring 85 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase BENCHTOP RACKMOUNT PROGRAMMABLE SWITCHES Specifications SB Model Parameter Single Common C Configuration Multiple Common D Configuration Multiple Common E and F Configurations Typical Maximum Typical Maximum Typical Maximum Insertion loss IL Single mode SM 0 4 dB 0 7 dB 0 4 dB 0 7 dB 0 5 dB 1 0 dB Multimode MM 0 4 dB 0 7 dB 0 4 dB 0 7 dB 0 5 dB 1 0 dB Return loss RL SM standard analog 265dB 60 65 dB 265dB 60 65 dB 65 dB 60 dB Repeatability MM standard analog 25 35 dB 20 30 dB 25 35 dB 20430 dB gt 25 dB 20 dB Polarization dependent loss PDL SM 0 02 dB 0 05 dB 0 02 dB dB 0 03 dB 0 07 dB IL stability 0 03dB 0 05 dB 0 03 N O dB 0 03dB 0 05 dB 7 sequential switching 0 003 dB 0 005 dB 0 01 dB 0 005dB 0 01 dB random switching 0 01 dB 0 025 dB eb ONee B 0 04 dB 0 02dB 0 04dB Lifetime gt 80 million cycles
275. ures flattened high power density across the C band or C L 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 The MAP BBS models provide specialized variants and optical performance not available in the Benchtop BBS Additional BBS models are available in the Benchtop BBS product line for applications requiring higher output power 49 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP BROADBAND SOURCE Continued Spectral Density dBm 1 nm 1520 1 1540 1550 1560 1570 Wavelength nm Spectral Density Plot Qy MAPB 1E1550 C band 50 mW Spectral Density dBm 1 nm 18 1515 1535 1555 1575 1595 1615 Wavelength nm Spectral Density Plot MAPB 1E1560 C L band 20 mW 50 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase MAP BROADBAND SOURCE Specifications Parameter 1550 1550 1560 50 mW Output Power 100 mW Output Power 20 mW Output Power Operating wavelength range 1527 to 1568 nm 1525 to 1568 nm 1525 to 1610 nm Total optical power minimum 50 mW 100 mW 20 mW Spectral gain flatness maximum 1 6 d
276. uring switching Qualification testing GR1073 for Central Office A 182 g 1 x 8 1 5 meters of 900 um fiber FC PC connectors 0 to 60 C Operating temperature Storage temperature Humidity relative non condensing 40 to 85 C Operating lt 90 at 23 C lt 20 at 60 C Storage lt 90 at 60 C lt 40 at 85 C Dimensions W x H x D 70x 17x 70mm Weight 119 g 1 x 8 1 5 meters of 900 um fiber no connectors Unless otherwise specified all specifications at start of life at 23 C 3 C and 45 RH 5 At 23 C 3 C at specified test wavelengths 850 1310 MM or 1310 1550 SM and optical input power of 25 to 0 dBm 1 2 3 Drift of any channel at 3 C deviation of ambient temperature without changing channels excludes repeatability 4 Repeatability as per Telcordia GR 1073 CORE 100 cycles max min peak to peak 2 Measured between two consecutive readings over 100 cycles 6 _At 23 C Over full temperature range 5 0 V 5 122 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase 4 FLEXIBLE SMALL CHANNEL COUNT SWITCH MODULE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at
277. utput is limited but not squared The analog output will be linearly related to the input however the gain will change depending on the amplitude The digital outputs are limited NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP 1310 TO 1550 NM OPTICAL RECEIVER a JDS Uniphase pecirications Parameter Minimum Typical Maximum Optical performance Optical wavelength operational range 1290 nm 1565 nm Input optical return loss RL 27 0 dB Overload at 10 709255 and 9 953280 Gb s 7 0 dBm 6 0 dBm Sensitivity 10 709255 Gb s 21 5 dBm 16 5 dBm 9 953280 Gb s 23 5 dBm 18 5 dBm Optical power monitoring accuracy 1 0 dB 0 5 dB 1 0 dB Absolute maximum optical input level 3 dBm LOS factory preset threshold 28 5 dBm 29 5 dBm 31 0 dBm Electrical performance Output amplitude analog 0 15 V p p V p p Output amplitude digital 0 40 V p p 45 p p 1 30 V p p Output coupling cotipled Impedance 50 Ohms General Data rates 155 52 Mb s 10 71 Gb s Optical connector FC PC Optical fiber 9 125 900 um single mode SM Output connector Operating temperature GW SMA female 0 to 50 C Storage temperature 30 to 60 C Dimensions W x H x D 4 06 x 13 24 x 39 5 cm Weight 1 8 kg 1 For 1310 1550 nm at a bit error rate BER of 10 12 Q 2 Over the power monitoring range
278. velength division multiplexing DWDM long haul systems In 1983 JDS Uniphase invented the Manually Variable Attenuator in response to the need Attenuators for highly accurate calibration JDS Uniphase attenuators have continued to evolve with our industry leading HA Series and now our modular MAP based programmable versions Emulators Polarization Mode Dispersion PMD PMD for fiberoptic systems testing such as assessing PMD effects on systems and calibrating PMD measuring equipment Optical Delays accurately control the length of the path that the input signal travels and thereby the delay time of transmitted light in an optical fiber They can also be used to vary the modulation phase of reflections for the testing of reflection effects on transmitters Electro optic Instruments The Stressed Eye Generator provides a low cost feature rich source supporting both Receiver Conformance Testing RCT and Transmitter and Dispersion Penalty Testing DPT When combined with an electrical PG with the special jitter input a fully compliant 802 3ae Stressed Eye is achieved Sources Optical broadband sources have the advantage of offering a wide measurement range as Emulators produce accurately controlled amounts of well as a constant power and spectrum output The Benchtop Broadband Source features excellent output stability for both power and spectrum making it an ideal source for passive component testing I
279. ver 100 cycles 116 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com a JDS Uniphase RUGGEDIZED SMALL CHANNEL COUNT SWITCH MODULE Ordering Information For more information on this or other products and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at 1 800 498 JDSU 5378 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com Sample SR44 2228MNCE TET SR T LJ 2 Code Number Code Control Type Code Pigtail Length of Input 0 Direct 0 3 minimum length Channels 5 TTL 7 1 1 15 1 5 meters standard 2 2 SU SM only pigtail length 1 A Code Fiber Type um N connector B 7 1 50 125 a 9 9 9 9 meters 2 62 5 125 Code plete i 4 100 140 Channels 7 9 125 Code Pigtail Type 1 1 Qy L 3 0 mm jacketed cable p 2 E 900 um tight buffer fiber z 7 Code Waveleng a D 1310 1 3 1310 Code Return Loss 5 155 L 45 dB SM only 8 Keon U 55 dB SM only high RL M 20 dB MM only All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any inaccuracies The user assumes all risks and liability whatsoever in connec
280. wavelength range enables testing over the entire C L band range Optical amplifier testing with a single source while its high speed mode hop free sweeping not only e Fiber characterization reduces testing time but permits process testing and alignment of components Transmitter and receiver testing during manufacturing As with all MAP cassettes it may be seamlessly integrated with the extensive family of MAP cassettes which enables complete custom solutions to be rapidly This optical source cassette when installed in the assembled and expanded as needed MAP chassis complies to CE requirements plus UL3101 1 and CAN CSA C22 2 No 1010 1 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 Safety Information NVISIE FRADIA AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT IEC 60825 1 2002 MAX 500 mw 700 1680 nm NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com MAP TUNABLE LASER a JDS Uniphase pecirications Parameter Specification Wavelength Range 1520 to 1630 nm C L band Accuracy 15 pm enhanced accuracy mode 60 pm regular mode Stability 5 pm 1 hour 6 pm 24 hours Repeatability 5 pm 1 hour enhanced accuracy mode Resolution 1 pm Tuning speed 1 to 100 nm s Power Maximum power 110 nm 0 8
281. witch Relay Controller July 5 2005 July 5 2006 SB SC switch DNT Series 4 line functionality SW 2x2 August 1 2005 August 1 2006 SR 2x2 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Test and Measurement Reference uide Included in This Section Reference of Technical Terms 197 Test and Measurement Reference Guide Chromatic Dispersion Phase Delay Technique 201 Dispersion Penalty 202 Extinction Ratio 203 Eye Mask 204 Gain Flatness 205 Generalized Bit Error Rate Measurements 206 Insertion Loss Fixed Wavelength 208 Insertion Loss Swept Wavelength 209 N Intrinsic Jitter 210 YD Linewidth 212 Noise Figure Source Subtraction 213 Qy and Interpolation Optical Gain 214 WN Optical Modulation Amplitude aO Optical Signal to Noise Ratio 2 Optical Time Domain Reflectometer Polarization Dependent Gain CN Polarization Dependent Loss 219 Fixed Wavelength Polarization Dependent Loss O 220 Swept Wavelength Polarization Extinction Ratio 221 Cross Polarizer Method Polarization Mode Dispersion 222 Fixed Analyzer Method Polarization Mode Dispersion 223 Jones Matrix Method Return Loss 224 Transient Response 225 Wavelength 226 Switch Applications Switch Application 1xN Switches 227 Switch Application Multiple Application 229 Testing Reference of Technical Terms AMPLIFIED SPONTANEOUS EMISSION SOURCE ANALOG ATTENU
282. x calculation INVISIBLE LASER RADIATION AVOID EXPOSURE TO BEAM CLASS 3B LASER PRODUCT CLASS 1 LASER PRODUCT IEC 60825 1 2002 IEC 60825 1 2002 MAX 500 mw 700 1680 nm NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com 4 JDS Uniphase m SWEPT WAVELENGTH SYSTEM ENVIRONMENTAL MONITORING APPLICATION SWS EMA Continued SWS TRANSMITTER SOURCE SWEPT WAVELENGTH OPTICS MODULE SYSTEM ENVIRONMENTAL SWS20010 B 2 MONITORING APPLICATION l C L band TUNABLE LASER SWS17101 Eon 50 50 foot Q COUPLER DUT 2 INPUT SWITCH V COD N ARTIFACTS L GAS REFERENCE CELL Swept Wavelength System Environmental Monitoring Application Each Device Output Port Set up Includes Output description name for this port for example Through channel Drop ITU 191 95 Connection to optical switches which switch channels is device connected to Type of trace parameters to be calculated for example BandPass BandStop Etalon Channel set up Center Frequency FSR Specification list see Specification Manager 171 NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com 4 JDS Uniphase 7 SWEPT WAVELENGTH SYSTEM ENVIRONMENTAL MONITORING APPLICATION SWS EMA Continued In the test software set up each output for each device is given a name Assigned to th
283. y For more information on this or other ts and their availability please contact your local JDS Uniphase account manager or JDS Uniphase directly at mn 78 in North America and 800 5378 JDSU worldwide or via e mail at sales jdsu com ew N Sample MAPV 2B70100FA MAPV 2B i H Code Fiber Type um Code Port Type Code Connector Type 19 50 125 0 bulkheads FP FC PC 29 62 5 125 FA FC APC 70 9 125 SC SC PC Code Built in Option SU SC APC 0 none Code Cassette Type 1 coupler 1 single 2 dual UL is a registered trademark of Underwriters Laboratories Inc All statements technical information and recommendations related to the products herein are based upon information believed to be reliable or accurate However the accuracy or completeness thereof is not guaranteed and no responsibility is assumed for any reserves the right to change at any time without notice the design specifications function fit or form of its products described herein including withdrawal at any time of a product offered for sale herein JDS Uniphase makes no representations that the products herein are free from any intellectual property claims of others Please contact JDS Uniphase for more information JDS Uniphase and the JDS Uniphase logo are trademarks of JDS Uniphase Corporation Other trademarks are the property of their respective holders AO 2005 JDS Uniphase Corporation All rights reserved 210421
284. ze a support option please contact us at the numbers listed in the Customer Support Contact Information section NORTH AMERICA 800 498 JDSU 5378 WORLDWIDE 800 5378 JDSU WEBSITE www jdsu com Instrumentation Technical Support Technical Training Details Instructor led classroom training Our instructor led training provides the student with training material as well as hands on practice with the equipment in a relaxed environment During the training sessions students will learn about the software and hardware for the product and be able to put what they learn into use immediately by practising on live equipment set up in the classroom Advanced training prepares students to demonstrate following tasks Setting up the equipment Performing a measurement using the equipment Maintaining the equipment Troubleshooting and regular servicing the wA The course material provided allows the st Gent o reference this information during the entire course as well as use as a quick reference guideWhen they are using the equipment back in their facility in the future Class size is li depending on product and purpose allowing more opportunity for personal attention a on one interaction with each member of the class N Training locations We offer instructor led tgaif n Tn fully equipped classrooms at our JDS Uniphase Ottawa site or at your facility KN On site trai amp On site tr amp ning reduces the amount of tim
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