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TTI Fiber Optic Training Solutions

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1 TTI Fiber Optic Training Solutions
Advanced Fiber Optic Test & Measurement

2 Training Objectives Introducing Work Force to FO Test & Measurement
Getting Comfortable with FO • Understanding OTDRs Understanding OSAs • LTS Operation Briefing Investigating FO Markets • Developing a FO Vision 10/22/09 © TTI / Mike Mazzatti

3 Training Schedule Module 1 – Introduction to Fiber Optics
Module 2 – FTE-7500 Cobra OTDR Operation Module 3 – FTE-7500 Cobra OTDR Applications Module 4 – FTE-8000 MiniOSA Operation Module 5 – FTE-8000 MiniOSA Applications Module 6 – Autowave LTS/PM/LS Operation Module 7 – New Products Module 8 – Market Segmentation Training Summary 10/22/09 © TTI / Mike Mazzatti

4 Module 1: Intro To Fiber Optics
Fiber Optic Historical Perspective Fundamentals of FO Applications & Advantages of FO Components of FO Systems Network Structures FO Test & Measurement 10/22/09 © TTI / Mike Mazzatti

5 Module 1: Historical Perspective
Colladon / Babinet 1840s - Principle of total internal reflection in water jets & bent glass rods. Hopkins / Kapany /Snitzer 1950s – Light propagation with cladded fibers for applications of medicine, defense, even television. Charles Kao / Standard Telecommunications Lab Team 1960s – proposed a perfected SiO2 fiber light pipe for low loss transmission capabilities. Maurer / Corning Team 1970s – through drawing of chemical vapor deposition glass preforms, proved Kao’s vision. Kao the 2009 co-winner of the Nobel prize in physics. [courtesy Royal Swedish Academy of Sciences] Obviously transmitters, receivers, connectors, translators need mentioning. 10/22/09 © TTI / Mike Mazzatti

6 Module 1: Fundamentals of FO
Light Guiding – IOR n=cvac/cmat Critical Angle sin = nclad/ncore Multimode Step Index Multimode Graded Index SingleMode Trapping Light From The Source – Numerical Aperture NA = sin = (n2core-n2clad)½ 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 6 6

7 Module 1: Fundamentals of FO
Losses - Attenuation dB or –dB Loss vs Wavelength (Loss vs Freq?) See Table Fresnel Reflections  = [(n-1)/(n+1)]2 ORL Optical Return Loss Rayleigh Scattering -4 – IL Insertion Loss Connectorization Alignment Micro/macrobends & Absorption 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 7 7

8 Module 1: Fundamentals of FO
Bits, Bytes, & Bandwidth Transmission Bandwidth Capabilities MM 100Mb-2Km, 1Gb-550m, 10Gb-300m (LD enhanced) SM up to 100s Km Bit Error Rate 10-6 to 10-12 (N)Zero Dispersion Shifted Dispersion (Multi)Modal (mode traveling time differential) Material Chromatic (wavelength core traveling time differential) Waveguide Chromatic (wavelength core/cladding differential) Polarization (electric and magnetic field differential) 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 8 8

9 Module 1: Applications & Advantages of FO
Longhaul Terrestrial & Submarine Systems CATV Multiple Service Lines for Video, Telephony & Datacom Cellular Tower Feeds LANs Interoffice & Campus Intranet trunks Digital Subscriber Line Dropoffs For Higher Speed Home Access Industrial Datacom Links What Do These Have In Common? Advantages: Low Loss Over Very Long Distances Extreme Bandwidth Capabilities Impervious to Interference Lightweight & Small Size Secure Media 10/22/09 © TTI / Mike Mazzatti

10 Module 1: Components of a FO System
Cable Structures Outer Jacket – color scheme, environmental protection, Hytrel or PVC Strength Members – Kevlar, fiberglass load bearing rods Loose Tube (environmentally hardened) or Tight Buffer (crush resistant) Simplex / Duplex Interior 10/22/09 © TTI / Mike Mazzatti

11 Module 1: Components of a FO System
Detectors PIN, APD, integrated detector/preamp Si, Ge, InGaAs Sources SLED, ELED, VCSEL, FP, DFB; tunable: ECL, DBR/SOA Distributed Bragg Reflector with Semiconductor Optical Amplifier GaAs InGaAsP 10/22/09 © TTI / Mike Mazzatti

12 Module 1: Components of a FO System
Connectors FC, SC, ST; SFF: LC, MU, MTRJ PC, UPC, APC Splices mechanical or fusion Couplers, Multiplexers, Isolators, Filters & Switches PON System Mechanical Ring DWDM Dense Wavelength Division Multiplexer OADM Optical Add Drop Modules 10/22/09 © TTI / Mike Mazzatti

13 Module 1: Components of a FO System
Amplifiers – EDFA Erbium Doped Fiber Amplifier 10/22/09 © TTI / Mike Mazzatti

14 Module 1: Network Structures
PON Campus LAN Hybrid Fiber Coax – CATV DOCSIS Metro Ring – CDWM or DWDM 10/22/09 © TTI / Mike Mazzatti

15 Module 1: Network Structures
Longhaul Terrestrial Super Longhaul Submarine 10/22/09 © TTI / Mike Mazzatti

16 Module 1: FO Test & Measurement
Power Meter, Light Source & Loss Test Set Optical Return Loss Meter Passive Optical Network Meter Fiber Identifier / Polarization Extinction Meter Optical Time Domain Reflectometer Optical Spectrum Analyzer Tunable Light Source / VOA Chromatic/Polarization Dispersion Analyzer 10/22/09 © TTI / Mike Mazzatti

17 Module 2: FTE-7500 MiniOTDR Operation
Intro Into OTDR Technology FTE-7500 Features Startup & Keypad MiniOTDR Graph Mode Icons & Softkeys Help, FMS & Event Screen Autowave LTS Operation Video Scope Operation Visible Fault Locator Operation Options and Specifications 10/22/09 © TTI / Mike Mazzatti

18 Module 2: Intro Into OTDR Technology
Fiber Optic Radar – Launch an ultrashort laser pulse & monitor the reflected light in sequential time samples Measures Scattering Rayleigh – loss mechanisms of the exponentially decaying signal Fresnel Reflections – high level signals at discontinuities 10/22/09 © TTI / Mike Mazzatti

19 Module 2: Intro Into OTDR Technology
Examines Events Distances – IOR fiber calibration – use reflecting events Splices - Slope Loss Analysis - 2pnt / splice / least square appr. Connectors – loss and ORL Ends Reflections - Breaks What Gets In The Way ? Pulse Widths – Event & Attenuation Dead Zone Dynamic Range – Noise Types Of Losses – Dirty Front End / High Level Reflection 10/22/09 © TTI / Mike Mazzatti

20 Module 2: FTE-7500 Features Strengths Feature Rich Performance + Fast
Easy To Use Affordable Rugged Feature Rich Color Display With Icon Based GUI Multi-Trace & Multi Wavelength Capability Event Table / Pass – Fail AutoWave Loss Test Set Included VFL & Scope Probe Connection Cert Software And Screen Shot Documentation Weather Sealed With Rubber Boot Performance + Optimized Range Instant On – Fast Averaging AutoTest & Quick Zoom Short Dead Zones or Long Pulse Range USB 4GB Data Stick & PC Port 10/22/09 © TTI / Mike Mazzatti

21 Module 2: FTE-7500 Startup & Keypad
Connect Fiber, Turn On & Select OTDR Scroll Wheel Graph Mode - Moves Cursors Event Mode – Highlights Events for Selection FMS Mode – Highlights Files for Selection Menu Mode – Highlights Soft Keys & Icons Menu – Changes Focus From Graph To Menu AutoTest - Examines Fiber & Sets Proper Pulsewidth & Length A/B – Changes Between Adjusting A or B Cursor Zoom – Selects The Graph Zoom Level Scan – Starts Or Stops Current Scan Select Graph Mode - Moves Cursor To Next Event FMS / Event Mode – Selects Files or Events Menu Mode – Selects Highlighted Soft Key Or Icon 10/22/09 © TTI / Mike Mazzatti

22 Module 2: FTE-7500 MiniOTDR Graph Mode
Horizontal Scale – Distance in Kilometers Or Kilofeet Vertical Scale – Loss in dB Zoom Bar Cursors A & B – Movable To Display Distance & Loss Measurements Settable Measurement Area – 2 Point, Splice or LSA Parameter Area - IOR, Wavelength, Scan Length, Pulse Width & Range 10/22/09 © TTI / Mike Mazzatti

23 Module 2: FTE-7500 Icons & Softkeys
SoftKeys – Programmed For Each Function Along Top Of Screen Scrolling Icon Bar – Settable Parameters Index Of Refraction Wavelength Average Pulse Width Range Special Screens Help Menu File Management Screen Instrument Parameters Exit to Main Screen Battery Indicator 10/22/09 © TTI / Mike Mazzatti

24 Module 2: FTE-7500 Help FMS & Event Screen
Main Help Menu & Context Sensitive Help Screens File Management Screen Store & Retrieve Files To Unit or Transfer To PC View File List, Parameters & Trace Preview Select File(s) For Viewing Event Screen Shows Distance, Loss and ORL For Each Event and Total Link Selectable Pass/Fail Thresholds Selectable Sensitivity 10/22/09 © TTI / Mike Mazzatti

25 Module 2: FTE-7500 AutoWave LTS
CATV Power Meter Calibrated at 850,1300,1310,1490,1550,1625 Source For Each OTDR Wavelength Continuous Wave Modulated For Fiber Identification AutoWave Modulated for Automatic Wavelength Cal of Link Measurement Single Wavelength, Multiwavelength & Graph Displays Multiwavelength Data Storage Data Upload to PC 10/22/09 © TTI / Mike Mazzatti

26 Module 2: FTE-7500 Video Scope Operation
Low Cost Video Scope Probe Accessory 2.5mm or 1.25mm Universal Connector Adaptors Popular Connector Patch Panel Adaptors Front Illuminated or Core View 200x or 400x Zoom Contrast and Centering Adjustment File Save & PC Upload Capability Links to OTDR Trace in Certification Software 10/22/09 © TTI / Mike Mazzatti

27 Module 2: FTE-7500 Visible Fault Locator
1mw 650nm Red Illuminator Quickly Identify Nearby Breaks Inside OTDR Deadzone Continuous or Modulated Mode For Easy Identification Easily Seen in Bare Fiber, at Connector Boots or Even Through Jacketed Fiber Replaceable Ferrule for Customer Maintenance 10/22/09 © TTI / Mike Mazzatti

28 Module 2: FTE-7500 Options & Specifications
All Popular Wavelengths Available (Capturing Special Orders Is a Major Component of the Business) Flexible and Responsive Feature Updates & Additions Main Specs: 32/27dB Range Single/Multimode 1-240Km Range 1/4m Resolution 2/5m Event & Attenuation Dead Zone 10/22/09 © TTI / Mike Mazzatti

29 Module 3: FTE-7500 MiniOTDR Applications
PC Applications Software Analyzing Fiber Features Auto vs Manual Analysis Shorthaul Applications Longhaul Applications Competitive Analysis TFS-2500 Strengths TFS-2500 Future View 10/22/09 © TTI / Mike Mazzatti

30 MicrOTDR TFS-2500

31 Module 4: FTE-8000 MiniOSA Operation
Intro Into OSA Technology FTE-8000 Features Startup & Keypad MiniOSA Spectrum Mode Icons & Softkeys Help Menus & FMS MiniOSA Table Mode Options and Specifications 10/22/09 © TTI / Mike Mazzatti

32 Module 4: Intro Into OSA Technology
Optical Spectrum Analyzer = Multi-wavelength Power Meter Measures Simultaneous Colors of Light In Wavelength = Nanometers Or Frequency = Terahertz In dBm per Channel & Total Power Bands of Colors (by popularity) ‘C’ Band nm ( THz) ‘L’ Band nm ( THz) ‘S’ Band nm ( THz) ‘CWDM’ Band nm Channel Spacing 0.4nm or 0.8nm 50MHz or 100MHz CWDM 20nm Applications For An OSA DWDM System Configuration, Check Power Tilt Set Up OADM & ROADM System Channel Each Node Calibrate EDFA Gain Flatness 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 32 32

33 OSA Applications Example Gain Tilt Calibration w/ MiniOSA
OA ROADM 10/22/09 © TTI / Mike Mazzatti

34 Module 4: FTE-8000 Features Fast Easy & Flexible Affordable Rugged
Fast Power Up Real Time Scanning <1/2 Second AutoTest Spectrum Selection Pass/Fail Table Thresholds Easy & Flexible On-Board Help Menu Input/Output Gain Tilt Monitoring On-Board or USB Flash Drive Storage USB to PC With Software Table Mode with Statistical Function Video Probe Capability Affordable ‘C’ or ‘L’ Industry Leading Price Rugged Rubber Boot With Bail Splash-proof Sealed Keypad Heavy Duty Aluminum Enclosure No Moving or Delicate Optics 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 34 34

35 Module 4: FTE-8000 Startup & Keypad
Connect Fiber to Low or High Port & Turn On Scroll Wheel Spectrum Mode - Moves Cursors Table Mode – Highlights Channel Statistics FMS Mode – Highlights Files Menu Mode – Highlights Soft Keys & Icons Menu – Changes Focus From Spectrum To Menu AutoTest - Examines Channels and AutoZooms A/B – Changes Between Adjusting A or B Cursor Zoom – Selects The Graph Vertical Zoom Level Scan – Starts Or Stops Current Scan Select Spectrum Mode - Moves Cursor To Next Channel Table Mode – Selects Channel for Spectrum View Menu Mode – Selects Highlighted Soft Key Or Icon 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 35 35

36 Module 4: FTE-8000 Spectrum Mode
Horizontal Scale – Channel # Vertical Scale – Power Level in dBm Zoom Bar – Active Channels Cursors A & B – Movable To Display Wavelength, Frequency & Power Measurements Settable Measurement Area Settable Parameter Area Green Pass Area in Spectrum 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 36 36

37 Module 4: FTE-8000 Icons & Softkeys
Parameter Icons: Wavelength or Frequency Selection Power / Gain / Tilt Selection Resolution Selection Start and Stop Wavelengths Input Power Selection Toolbar Icon: User Interface PC Interface Display Settings Special Icons: Help Menu File Management Screen Real Time Clock Battery / Charging Level SoftKeys – Programmed for Each Function 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 37 37

38 Module 4: FTE-8000 Help Menus & FMS
File Management Screen Store & Retrieve Files To Unit, USB Flash or PC Transfer View File List, Parameters & Spectrum Preview Select File(s) For Immediate Viewing Help Menu Provides Help Topics for All Selections Topics for Spectrum, Table & FMS Context Sensitive Help 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 38 38

39 Module 4: FTE-8000 MiniOSA Table Mode
Displays Current Power of Every Channel Displays Channels Pass/Fail Result Displays Each Channel Max Min & Average Statistics Select Minimum and Maximum Thresholds 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 39 39

40 Module 4: FTE-8000 Options & Specifications
C L or S DWDM & 20nm CWDM Bands Available Channel Deviations Possible Main Specs: >80 Channels per Band 50GHz or 100GHz Spacing 20nm Spacing on CWDM +10dBm to -50dBm / Channel 2 Readings per Second 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 40 40

41 Module 5: FTE-8000 MiniOSA Applications
PC Applications Software Feature Rich for MiniOSA DWDM Installation & Commissioning OADM Node Upgrades EDFA Gain Tuning CWDM Applications Out of Band Capabilities Competitive Analysis FTE-8000 Strengths FTE-8000 Future View 10/22/09 © TTI / Mike Mazzatti

42 DWDM Power & l Monitoring
DWDM MiniOSA Mainframe OSA Power Meter 10/22/09 © TTI / Mike Mazzatti

43 Mini OSA Monitoring Monitoring Points: End Terminals Repeaters
DWDM Fiber-optic transmission links Monitoring Points: End Terminals Repeaters Optical Switching DWDM Fiber-Optic Transmission Link Signal Tap 1 – 5% of power Power Output Optical Frequency 10/22/09 © TTI / Mike Mazzatti

44 Optical Layer Monitoring Points Test System Commissioning With MiniOSA
Full-Band Monitoring Remote Provisioning Optical Cross-connect Optical Add-Drop Mux Optical Amplifier 10/22/09 © TTI / Mike Mazzatti

45 DWDM Narrowcast in CATV networks
Secondary Hub 1x8 Primary Hub Broadcast Service Targeted Service Combiner Test Point Test Point Narrowcast Targeted Service (Voice, VOD, Internet) DWDM 20 CH DWDM Passives Ex: Scientific Atlanta DWDM Passives Ex: Scientific Atlanta 10/22/09 © TTI / Mike Mazzatti

46 Optical Management of DWDM PON
100 GHz channel spacing 1% Central Office Passive Remote Node How to manage a passive DWDM network? Power meter: can’t distinguish individual wavelengths MainFrame OSA: too costly Benefits: Measures each λ Ease of use Low cost Small & Rugged 10/22/09 © TTI / Mike Mazzatti DWDM MiniOSA

47 Passive DWDM in Metro Networks
Passives example: Cisco 15216 VOD OA R MSPP ITU 5 X X IP over DWDM X ITU 8 Metro Transport Client-side fault demarcation Line-side fault isolation 10/22/09 © TTI / Mike Mazzatti

48 Module 5: MiniOSA Competitive Analysis
FTE-8000C/L/S/CWDM JDSU OCC-56C/56L Anritsu MT909020A EXFO FTB 5230 Wavelength Range OCX (CWDM) OCX80C , OCX80S , OCX80L OCC56C nm OCC56L nm CWDM Channels Broadband Wavelength Accuracy ± 0.1nm Typ.± 0.03nm ± 1nm2 ± 0.1nmb Channel Spacing 50Ghz, 100GHz, 20nm (CWDM) 50GHz /100GHz/200GHz CWDM 20nm 50Ghz, 100GHz, CWDM Channel Power Range +10dBm to -50dBm <-70 to 10dBm +10dBm to -40dBm +10fdBm to -60dBm Absolute Accuracy < ± 1dB < ± 1dB1, 2 ± 0.5dB1 ( ) ± 0.4dBb Readout Resolution 0.01dB ± 0.1dB 0.1dB Channel Imbalance (Adjacent Channels) ≥12 dB2, 3 PDL ± .15dB ±0.3dB ± .1dB Measurement Time <1/2 Sec ~120 s (full span sweep) typ. N/S 4s (35nm Span, Multiple-Peak Analysis) Max. Composite Power +25 dBm  +22 dBm Total +17dBm Channel +13dBm Return Loss >40dB >35 dB ≥40 dB Optical Interface Universal UPC (FC/SC) Universal PC (FC/SC/Din…) UPC or APC FC or SC Graphical Display Trace Channel & Table View Bar Graph and Table Mode Table, Graph, Channel Drift and Alarms in Drift Modes Bar Graph, Spectrum and Tables Display 4in Color TFT Monochrome pixel 4.3in Color TFT-LCD Touch screen, Color, 800 x 600 TFT 307 mm (12 1/16 in) Dimensions 7.75 x 4.5 x 2.25in 3.74 x 2.36 x 7.68in approx. 7.5 x3.8 x 1.9in 12.5 in x 13.5 in x 7.75 in Weight 2 lb 1.1lb approx. 2lb 26.4lbs Battery 8 AA Rechargeable NiMH - 8 hours operating time Four Dry Batteries Mignon/AA, 1.5V or NiMH Rechargeable Cells Mignon/AA, 1.2V Operating Time From Dry Batteries Typ. 7h. NiMh, Operating Time 4 hours(typical)4,Rehcarge Time :<3 hours5, Operation Possible with 4x AA Alkaline: Rechargeable NiMH battery pack times four for seven-slot receptacle, Power VAC universal (US, GB, EU, AU Mains) VAC 9VDC, 100 to 240 VAC 100–240 VAC, 50/60 Hz and 12–24 VDC for the two-slot (GP-402) and the seven-slot (GP-407) module receptacles; Environmental Operation -10°C to +50°C Operation -10°C to +55°C Storage:-40°C to +70°C Operation 0°C to +50°C6, <80%(Non-Condensing)7 Storage:-20°C to +60°C Operation 0°C to +40°C Storage:-20°C to +50°C List Price $5,995.00 $6,800.00 $8,630.00 48

49 Module 6: Autowave LTS/PM/LS Operation
Intro Into LTS Technology SingleMode Analysis Multimode Analysis Autowave Features Other Interesting Features File Management & Software Options and Specifications Competitive Analysis 10/22/09 © TTI / Mike Mazzatti

50 Module 6: Loss Test Set Technology
Detectors – InGaAs vs Ge Responsivity Curves InGaAs More Expensive Better Temperature Stability Better Dynamic Range Dynamic Range – CATV >80dB from -57dBm - +25dBm vs Normally -77dBm - +5dBm Filter Affects The Wavelength Calibration Sources – LEDs vs LDs Power & Stability Affects Range Battery Life Accuracy 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 50 50

51 Module 6: SM & MM Analysis
Singlemode Analysis 1310nm – 1625nm Range Requires Extreme Cleanliness Recommend Video Scope Multimode Analysis 850nm & 1300nm Requires Launch Control Mode Stripping Recommended NA of Fiber & Detector Size Match 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 51 51

52 Module 6: Interesting Features
AutoWave Instant Calibration To The Curve Multiple Data Points Saved Improves Test Efficiency Store Reference For Each Wavelength Modulation For Fiber Identification Interchangeable Source & Detector Connections Long Rechargeable Battery Life 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 52 52

53 Module 6: File Management & Software
Storage Capability For AutoWave Readings Examine On-board the Unit or Upload to the PC Application Software Software Creates Tabular Information & Prepares For Printing Certification Copy 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 53 53

54 Module 6: Options & Specs
Max Power +25dBm or +5dBm Min Power -57dBm or -77dBm Calibrated Wavelengths 850, 1300, 1310, 1490, 1550 & 1625nm 0.2dB Accuracy Dual or Triple Wave 0dBm Source CW, 270, 1K & 2KHz Modulation 0.05dB Long Term Stability 2000 AutoWave Storage Cells 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 54 54

55 Module 6: AutoWave LTS Competitive Analysis
EXFO JDSU Noyes Owl FIS PM-1500 PM FPM302 PM - EPM OLP-55 BN2277/02 OPM5-30 4 Series OV3 LS LS - FLS300-23BL LS - ELS BL OLS-55 BN2279/01 OLS4 Wavesource Detector InGaAs Ge Dynamic Range +5-77 dBm dBm dBm dBm dBm +5-70 dBm +5-65 dBm Resolution 0.01dB 0.01dB (from +26 to -35dBm) 0.01dB (to -60dBm) Calibrated Wavelengths 6 10 900 7 4 Laser Output /1550 0dBm ≥1 dBm -7 to 0dBm separately adjustable 0 dBm AutoWave Switching Yes No Included Connectors Interchangeable ST/ FC/SC for PM and LS 1PM/1LS Sold Separately UnivPM/1LS Data USB N/A RS232 Storage 2000 1000 500 per λ 255 Weight 1.14lbs .9lb 1.1lb .58lbs 1.25lb Size 5.9"H X 3.9"W X 1.37"D 7.25"H X 4"W X 2.12"D 7.68"H X 3.47"W X 2.36"D 5.5"H X 3.2"W X 1.5"D 6.48"H X 3.48"W X 1.1"D 8.75"H X 4"W X 2.9"D Battery Life (hrs) >200 hrs. PM >15hrs. LS 260 hrs. PM hrs. LS 70 hrs. PM hrs. LS >100hrs 300 hrs. PM hrs. LS 100 hrs. 8 (9V Li-ion) 3AA 4 AA 2AA PS Sold Separately 9V Li-ion Price Power Meter $625.00 $1,260.00 $1,360.00 $935.00 $895.00 $695.00 Price 1310/ Laser Source $1,995.00 $2,200.00 $2,975.00 $2,290.00 $1,495.00 PM/LS Loss Test Set $2,665.00 $3, KIT $4,235.00 $2, Kit $2,190.00 55

56 Module 7: New Products Introductions
MiniOTDR Viper Platform MiniTLS Tunable Light Source MiniVOA Variable Optical Attenuator MiniCDA Chromatic Dispersion Analyzer MiniPDA Polarization Dispersion Analyzer Advanced Bi-Directional Autowave LTS / Talk Set PON Meters & ORL 10/22/09 © TTI / Mike Mazzatti

57 FTE-7000 OTDR Low Cost Full Featured OTDR
Built On FTE Platforms Smaller & Lighter With Cost Saving Casework & Power Supply Design Competes Extremely Well With Competitive Base Instruments 32dB Dynamic Range, 1/4m Resolution & 2m Deadzone All Wavelengths Available Includes VFL, LTS, Preview Mode in FMS & Event Screens 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 57 57

58 FTE-6000 MiniTLS Tunable Laser Source
Tunable Source Used to Sweep the Entire Range in DWDM System Tests Used in Conjunction with the MiniOSA to Install, Commission or Upgrade OADM Systems C or L Band 50GHz Channel Spacing Built In Variable Optical Attenuator Programmable Start l, Stop l, Step Size, & Dwell Time FTE Family Handheld, Rugged, Splash Proof Design 10/22/09 © TTI / Mike Mazzatti

59 FTE-4000 MiniVOA Variable Optical Attenuator
Used to Provide Excess Attenuation to Determine Budget Compliance Used To Establish Required Receiver Attenuation Level Programmable Optical Attenuation From 0.00dB to 40.00dB Calibrated at 1310nm and 1550nm Programmable Start dB, Stop dB, Step Size, & Dwell Time FTE Family, Handheld, Rugged, Splash Proof Design 10/22/09 © TTI / Mike Mazzatti

60 FTE MiniCDA Chromatic Dispersion Analyzer
Utilizes the Tunable Laser Source to sweep the Wavelength Range Consists of 2 Locked In Separable Units: MiniTLS Modulated Tunable Laser Source Chromatic Dispersion Analyzer Comprehensive Dispersion Analysis Data With Graphical & Tabular Screens FTE Family Handheld, Rugged, Splash Proof Design 10/22/09 © TTI / Mike Mazzatti

61 FTE MiniPDA Polarization Dispersion Analyzer
Utilizes an Optional Polarization Mode Controller Unit Used In-Line with TLS and CDA to provide added capabilities in 3 Part Analyzer TLS, CDA and now PDA in a Scalable Set Targeting ~$20K For Instrument Suite FTE Family Handheld, Rugged, Splash Proof Design 10/22/09 © TTI / Mike Mazzatti

62 Other Market Opportunities & Future Products
OTDR Autowave Capability Included with a LTS Kit, Scope, Consumables & Case Advanced Low Cost ORL / PON Instrument Advanced Bi-Directional Analyzer / Talk Set MiniCDA MiniPDA Chromatic & Polarization Dispersion Analyzer Future Generation Modular Handheld Optical Multimeter 10/22/09 © TTI / Mike Mazzatti

63 Module 8: Market Segmentation
CATV / LAN / Metro /FTTx Domestic Opportunities International Opportunities Standards & Qualifications Competitive Analysis 10/22/09 © TTI / Mike Mazzatti © TTI / Mike Mazzatti 63 63

64 Training Summary FTE Family of Highly Advanced Mini Test & Measurement Instrumentation Flexible & Adaptive Feature Sets Designed for Rugged Field Installation, Commissioning & Maintenance Activities Integrated Testing, Documenting & Certification of Network Results On-Board Help System & Auto Feature Set for Simple & Quick User Startup For More Info: 10/22/09 © TTI / Mike Mazzatti


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