If you’re looking to Sell Fluke Networks DTX-1800 Cable Analyzer GFM2 Fiber

Fluke Networks DTX-1800 Digital Cable Analyzer

The DTX CableAnalyzer™ Series from Fluke Networks is the testing platform for today and tomorrow. This revolutionary platform significantly reduces total time to certify by improving every aspect of the testing process. It all starts with a Cat 6 Autotest time that’s several times faster than other testers and fiber testing that’s five times faster. DTX also gives you a complete solution for 10 Gig testing over copper, Basic Tier 1 fiber testing, and Extended Tier 2 fiber testing with the industry’s only modular OTDR. The DTX makes you ready for whatever the world throws at you – today and tomorrow.

Significantly reduces total time to certify.

The DTX Digital CableAnalyzer Series gives you a complete solution that streamlines every aspect of the certification job from setup, to record fast testing and troubleshooting, to reporting results to the customer. All told, DTX can save you considerable time and money up to four hours a day.

Cat 6 certification in 9 seconds

The DTX-1200 and DTX-1800 perform Cat 6 certification tests in just 9 seconds in full compliance with industry standards and with superior accuracy. That’s several times faster than existing testers. This incredible speed means you can test up to 170 more links in an eight-hour shift.

Troubleshoot faults twice as fast

When a link fails, the DTX Series provides quick, easy-to-understand directions to identify the point of failure (distance from the tester) and the possible reason(s) for the failure.

These directions not only tell you the problem, but also identify corrective actions your test technicians can take to solve the problem quickly all without having to consult the project manager. Instead of spending time executing trial and error corrections – and re-testing to find out whether the problem has been resolved the technician knows exactly where to look and what to do to fix the failing link. Even if only two percent of the cables certified in one shift fail Autotest, you’ll save as much as two hours of labor time per day of certifying.

Fast even when you’re not testing

The DTX Series isn’t just a faster way to test. It cuts setup and reporting times. Its ease-of-use lowers training time. Extended battery life means you can do more on a single charge. And a bright color display, ample memory, and built-in talk set all contribute to overall productivity while enhancing the user experience. This all adds up to save you time and money every day.

Enhance the power of DTX, Verify network service availability

Improve the services you offer your customers with the DTX CableAnalyzer and Network Service Module (DTX-NSM). Simply plug the DTX-NSM module into the back of the main unit and you’re ready to verify network service availability and link connectivity up to 1 Gigabit Ethernet. Verify if a link is active, identify its data rate, duplex capabilities and whether power is available for PoE. Then document all the network connectivity tests executed as an integrated part of the cable certification documentation provided by LinkWare.

Test cabling with Midspan PSEs for POE applications

Midspan power sources block DC power from traveling to the Ethernet switch or other active equipment in the wiring closet. This prohibits Wiremap tests of the link with conventional DC test methods. The DTX Series CableAnalyzer has the capability to test cabling using AC signals. This unique feature allows full certification to ISO and TIA standards where Midspan Power over Ethernet supplies are used.

Buying, Selling, Trading Fluke Networks DTX-1800

Certify patch cord performance

Test patch cords to ensure optimal network performance with greater channel throughput and greater system margin. Attach the optional DTX Patch Cord Adapters (DTX-PCU6S) to the DTX main and remote units and you’re ready to certify patch cord performance to TIA Cat 6/5e specifications and also ISO class D/E.

Test coaxial cable quickly and easily

Extend the capabilities of your DTX CableAnalyzer to test coaxial cabling systems including legacy data cabling (such as 10BASE-2 or 10BASE-5 Ethernet) and video distribution coaxial cabling. Test coax cable length, propagation delay, cable (input) impedance and insertion loss as a function of signal frequency.

Fluke Networks DTX-GFM2

DTX Gigabit Multimode Fiber Modules – Includes one module incorporating: 850nm VSECL source and 1310nm laser source combined into a single output port, 850-1550nm power meter, Integrated VFL, and an SC adapter for power meter.

The DTX fiber advantage:

• Fiber on-board when you need it
• Five times faster than existing testers with 12-second Autotest
• Delivers Tier 1 LinkWare fiber certification reports
• Optimized for applications ranging from 10 Mb/s to 10 Gb/s
• Locates fibers, verifies continuity and polarity, and finds breaks with built-in VFL
• Speeds testing with TALK, FINDFIBER, MONITOR, bi-directional and single fiber test features
• Supports multiple SFF (small form factor) fiber connectors

Record-fast fiber certification
We engineered the DTX Fiber Modules to accelerate testing through exclusive technology and an easy-to-use interface. Press the Autotest button and automatically test two fibers, each at two wavelengths, measure length, and determine pass or fail status – all in about 12 seconds. Our fiber modules let you test more fibers in less time, minimizing testing costs and freeing you up for other tasks. Over time, the savings are substantial – easily more than 100 hours per year.

Test copper and fiber with a touch of a button
Only the DTX platform offers optional on-board fiber modules. Never lose time searching for your fiber adapter. Fiber certification is always resident and ready when you are.

Deliver complete Tier 1 certification
DTX fiber modules provide a complete Tier 1 certification solution – loss, length and polarity. Validate fiber link performance and installation quality. Measure optical loss at multiple wavelengths, measure fiber length and verify polarity. You can bi-directionally test two fibers at two wavelengths with incredible speed without swapping main and remote units, a capability only available from Fluke Networks.

Certify multimode fiber
Your network may contain both multimode or singlemode fiber types. Our VCSEL/LD module qualifies the link for 1 or 10 Gigabit Ethernet use. Save, upload, manage and print comprehensive certification reports using Fluke Networks LinkWare™ PC software.

Find faults faster
Use the integrated on-module visual fault locator (VFL) to troubleshoot simple link problems. The bright laser-driven VFL helps you visually locate many near-end fiber faults, and is useful for continuity and polarity verification. Our exclusive integrated design ensures that the VFL is always on-hand when you need it.

Fluke Networks delivers Network SuperVision
Fluke Networks is committed to providing innovative Network SuperVision Solutions™ for testing and certifying copper and fiber cabling systems. Simply add these powerful modules to your DTX CableAnalyzer to certify, troubleshoot and document your fiber installations – today and tomorrow – with one compact field tester.

If you’re selling your Fluke Networks DTX-1800 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke Networks DTX-1800 Cable Analyzer MFM Fiber

Fluke Networks DTX-1800 Digital Cable Analyzer – DTX-1800-M

The DTX CableAnalyzer™ Series from Fluke Networks is the testing platform for today and tomorrow. This revolutionary platform significantly reduces total time to certify by improving every aspect of the testing process. It all starts with a Cat 6 Autotest time that’s several times faster than other testers and fiber testing that’s five times faster. DTX also gives you a complete solution for 10 Gig testing over copper, Basic Tier 1 fiber testing, and Extended Tier 2 fiber testing with the industry’s only modular OTDR. The DTX makes you ready for whatever the world throws at you – today and tomorrow.

Significantly reduces total time to certify.

The DTX Digital CableAnalyzer Series gives you a complete solution that streamlines every aspect of the certification job from setup, to record fast testing and troubleshooting, to reporting results to the customer. All told, DTX can save you considerable time and money up to four hours a day.

Cat 6 certification in 9 seconds

The DTX-1200 and DTX-1800 perform Cat 6 certification tests in just 9 seconds in full compliance with industry standards and with superior accuracy. That’s several times faster than existing testers. This incredible speed means you can test up to 170 more links in an eight-hour shift.

Troubleshoot faults twice as fast

When a link fails, the DTX Series provides quick, easy-to-understand directions to identify the point of failure (distance from the tester) and the possible reason(s) for the failure.

These directions not only tell you the problem, but also identify corrective actions your test technicians can take to solve the problem quickly all without having to consult the project manager. Instead of spending time executing trial and error corrections – and re-testing to find out whether the problem has been resolved the technician knows exactly where to look and what to do to fix the failing link. Even if only two percent of the cables certified in one shift fail Autotest, you’ll save as much as two hours of labor time per day of certifying.

Fast even when you’re not testing

The DTX Series isn’t just a faster way to test. It cuts setup and reporting times. Its ease-of-use lowers training time. Extended battery life means you can do more on a single charge. And a bright color display, ample memory, and built-in talk set all contribute to overall productivity while enhancing the user experience. This all adds up to save you time and money every day.

Enhance the power of DTX, Verify network service availability

Improve the services you offer your customers with the DTX CableAnalyzer and Network Service Module (DTX-NSM). Simply plug the DTX-NSM module into the back of the main unit and you’re ready to verify network service availability and link connectivity up to 1 Gigabit Ethernet. Verify if a link is active, identify its data rate, duplex capabilities and whether power is available for PoE. Then document all the network connectivity tests executed as an integrated part of the cable certification documentation provided by LinkWare.

Test cabling with Midspan PSEs for POE applications

Midspan power sources block DC power from traveling to the Ethernet switch or other active equipment in the wiring closet. This prohibits Wiremap tests of the link with conventional DC test methods. The DTX Series CableAnalyzer has the capability to test cabling using AC signals. This unique feature allows full certification to ISO and TIA standards where Midspan Power over Ethernet supplies are used.

Certify patch cord performance

Test patch cords to ensure optimal network performance with greater channel throughput and greater system margin. Attach the optional DTX Patch Cord Adapters (DTX-PCU6S) to the DTX main and remote units and you’re ready to certify patch cord performance to TIA Cat 6/5e specifications and also ISO class D/E.

Test coaxial cable quickly and easily

Extend the capabilities of your DTX CableAnalyzer to test coaxial cabling systems including legacy data cabling (such as 10BASE-2 or 10BASE-5 Ethernet) and video distribution coaxial cabling. Test coax cable length, propagation delay, cable (input) impedance and insertion loss as a function of signal frequency.

Buying, Selling, Trading Fluke Networks DTX-1800

Fluke Networks DTX-MFM

Fluke Networks’ DTX-MFM set of two Fiber Modules adds record-fast multimode fiber certification and fault location to the DTX CableAnalyzer™ Series. Only Fluke Networks’ DTX platform offers optional on-board fiber modules so you’ll never lose time searching for your fiber adapter. Modules are easy to insert into the back of any DTX Series CableAnalyzer. With a resident fiber module on board, fiber certification is always ready when you are. Use the DTX-MFM Fiber Modules for certification of 50/125 and 62.5/125 multimode fiber. No other solution lets you switch between copper and fiber with a touch of a button.

These modules deliver the greatest time and cost savings. They accelerate testing through exclusive technology and an easy-to-use interface. Press the Autotest button and you get standards-compliant certification automatically. Test two fibers each at two wavelengths, measure length and determine the pass or fail status — all in about 12 seconds. That’s five times faster than other adapters. These fiber modules let you test more fibers in less time, cutting testing costs and freeing you up for other tasks. They can easily save more than 100 labor hours per year.

DTX-MFM fiber modules use LED sources to ensure standards-compliant certification of multimode fiber. Speed testing with TALK, FINDFIBER, MONITOR, bi-directional and single fiber test features. Save, upload, manage and print comprehensive certification reports using LinkWare PC software.

These comprehensive Tier 1 certification solutions include loss, attenuation, length and polarity measurements. You can validate fiber link performance and installation quality. Measure optical loss at multiple wavelengths. And bi-directionally test fibers at two wavelengths without swapping near- and far-end units. Deliver Tier 1 fiber certification reports by uploading test results to LinkWare PC software.

An integrated on-module visual fault locator (VFL) makes troubleshooting simple link problems quick and incredibly easy. The bright laser-driven VFL helps you locate many near-end fiber faults. Also use it to locate fibers as well as verify continuity and polarity. Exclusive integrated design ensures the visual fault locator is always on hand when you need it.

Both modules incorporate 850-nm and 1300-nm LED sources combined into a single output port, 850/1300/1310/1550-nm power meter and integrated VFL.

If you’re selling your Fluke Networks DTX-1800 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke DSP-FTA430 DSP-FTA410 SM MM Fiber Modules

Fluke FTA-430 Fiber Modules

Fluke FTA-430 Fiber Modules, Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Complete solution for testing and certifying high-speed Fiber Networks
Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Single-Mode fiber optic cabling systems. These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300 Digital Cable Analyzers.

Features:

• Test two fibers and two wavelengths simultaneously, automatically saving the test results.
• Perform bi-directional testing on both fibers under test and save results for both in one record.
• Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
• Automatically measure length and propagation delay along with loss.
• Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
• Communicate with a person on the other end of the fiber.
• Track the maximum and minimum power throughput of the test.
• Withstand drops and other mishaps that occur on the job.

Fluke FTA-410 Fiber Modules

The DSP-FTA410 Fiber Test Adapter lets you use a DSP-4000 CableAnalyzer test tool to test and certify fiber optic cable installations. The fiber test adapter includes the following features: Autotest function measures optical power loss (at 850 nm and 1300 nm) and length on dual-fiber multimode links.

Buying, Selling, Trading Fluke DSP-FTA430 DSP-FTA410

DSP-FTA410 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type: LED
Wavelengths: 850 nm and 1300 nm
Power output at 850 nm and 1300 nm: -20 dBm (10 mW), typical
(into 62.5/125 mm fiber)
Power output stability (8 hours) at 850 nm and 1300 nm: ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 nm
Connector: SC, multimode or singlemode
Detector type: Germanium
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, and 1550 nm
Measurement range: 0 dBm to -40 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke DSP-FTA430 DSP-FTA410 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke DSP-FTA430 DSP-FTA420 SM MM Fiber Modules

Fluke FTA-430 Fiber Modules

Fluke FTA-430 Fiber Modules, Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Complete solution for testing and certifying high-speed Fiber Networks
Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Single-Mode fiber optic cabling systems. These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300 Digital Cable Analyzers.

Features:

• Test two fibers and two wavelengths simultaneously, automatically saving the test results.
• Perform bi-directional testing on both fibers under test and save results for both in one record.
• Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
• Automatically measure length and propagation delay along with loss.
• Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
• Communicate with a person on the other end of the fiber.
• Track the maximum and minimum power throughput of the test.
• Withstand drops and other mishaps that occur on the job.

Fluke FTA-420 Fiber Modules

Complete solution for testing and certifying high-speed Fiber Networks

Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Multimode fiber optic cabling systems.  These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300  Digital CableAnalyzers.

Choose the world’s first dual-fiber, dual-wavelength Multimode Fiber Test Adapter to expand the capabilities of Fluke’s Digital Cable Analyzers. It easily attaches to the Fluke DSP-4300, DSP-4100 and DSP-4000 testers for bi-directional testing of multimode links. Model DSP-FTA420S measures loss and length on multimode fiber links easily and accurately. It uses LED light sources at 850 and 1300 nm. Use this optional high-performance, high-productivity multimode test adapter to document certified test results. In addition, the timesaving FindFiber feature provided by the DSP-FTA420S enables users at both ends to make a quick check for and locate a signal from the other end. Valuable time spent searching for proper end-to-end connections is minimized.

Buying, Selling, Trading Fluke DSP-FTA430 DSP-FTA420

Features:

• Test two fibers and two wavelengths simultaneously, automatically saving the test results.
• Perform bi-directional testing on both fibers under test and save results for both in one record.
• Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
• Automatically measure length and propagation delay along with loss.
• Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
• Communicate with a person on the other end of the fiber.
• Track the maximum and minimum power throughput of the test.
• Withstand drops and other mishaps that occur on the job.

DSP-FTA420/430 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke DSP-FTA430 DSP-FTA420 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke DSP FTA430 SM Fiber Modules 4 DSP-4000

Fluke FTA-430 Fiber Modules,  Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Complete solution for testing and certifying high-speed Fiber Networks

Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Single-Mode fiber optic cabling systems. These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300 Digital CableAnalyzers.

DSP-FTA430S
Singlemode Fiber Test Adapter

Uses light sources at 1310 nm and 1550 nm wavelenghts

Test two fibers and two wavelengths simultaneously, automatically saving the test results.
Perform bi-directional testing on both fibers under test and save results for both in one record.
Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
Automatically measure length and propagation delay along with loss.
Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
Communicate with a person on the other end of the fiber.
Track the maximum and minimum power throughput of the test.
Withstand drops and other mishaps that occur on the job.

Buying, Selling, Trading Fluke DSP FTA430

DSP-FTA430 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke DSP FTA430 please fill out form on the right hand side of page.

Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Fiber Optic Tester Adapters (FTA420 Multimode fiber optic cable)

Complete solution for testing and certifying high-speed Fiber Networks

Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Multimode fiber optic cabling systems.  These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300  Digital CableAnalyzers.

Choose the world’s first dual-fiber, dual-wavelength Multimode Fiber Test Adapter to expand the capabilities of Fluke’s Digital Cable Analyzers. It easily attaches to the Fluke DSP-4300, DSP-4100 and DSP-4000 testers for bi-directional testing of multimode links. Model DSP-FTA420S measures loss and length on multimode fiber links easily and accurately. It uses LED light sources at 850 and 1300 nm. Use this optional high-performance, high-productivity multimode test adapter to document certified test results. In addition, the timesaving FindFiber feature provided by the DSP-FTA420S enables users at both ends to make a quick check for and locate a signal from the other end. Valuable time spent searching for proper end-to-end connections is minimized.

Test two fibers and two wavelengths simultaneously, automatically saving the test results.
Perform bi-directional testing on both fibers under test and save results for both in one record.
Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
Automatically measure length and propagation delay along with loss.
Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
Communicate with a person on the other end of the fiber.
Track the maximum and minimum power throughput of the test.
Withstand drops and other mishaps that occur on the job.

DSP-FTA420 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re looking to Sell Fluke DSP-FTA430 SM Fiber Module 4 DSP 4100 4300

Fluke FTA-430 Fiber Module, Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Complete solution for testing and certifying high-speed Fiber Networks

Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Single-Mode fiber optic cabling systems. These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300 Digital CableAnalyzers.

DSP-FTA430 Singlemode Fiber Test Adapter

Uses light sources at 1310 nm and 1550 nm wavelenghts

Test one fiber and two wavelengths simultaneously, automatically saving the test results.
Perform bi-directional testing on both fibers under test and save results for both in one record.
Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
Automatically measure length and propagation delay along with loss.
Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
Communicate with a person on the other end of the fiber.
Track the maximum and minimum power throughput of the test.
Withstand drops and other mishaps that occur on the job.

Buying, Selling, Trading Fluke DSP-FTA430

DSP-FTA430 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke DSP-FTA430 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke Networks DSP-FTA440 MM Fiber Modules New

Accurately test MultiMode Gigabit Testing with the DSP-FTA440

Networks running Gigabit Ethernet over multimode fiber commonly use a new type of light source called a Vertical Cavity Surface Emitting Laser (VCSEL). VCSELs are more cost-effective than conventional lasers and it provide greater bandwidth than LED light sources.

The proper way to accurately test a fiber network using a VCSEL is with a tester that uses a VCSEL. Meet the DSP-FTA440 the world’s first VCSEL-based Fiber Test Adapter.

Combining the DSP-FTA440 with a DSP-4000 DSP-4100 or DSP-4300 provides automatic, dual-fiber loss testing and certification by using a VCSEL laser at 850 nm and a Fabry-Perot (FP) laser at 1310 nm wavelengths. It also measures the length of fiber links and certifies the results against the Gigabit Ethernet standard.

In addition, the DSP-FTA440 allows bi-directional testing on both fibers under test and saves results for both directions in the same record. Utilizing Fluke Networks’ comprehensive CableManager Software you can easily save all fiber link data electronically for results management and report generation.

Why do I need the DSP-FTA440 Gigabit Multimode Fiber Test Adapter if I already have an LED multimode tester?
– Networks running Gigabit Ethernet over multimode fiber, use a light source called a Vertical Cavity Surface Emitting Laser (VCSEL) for data transmission at 850 nm. More cost-effective than the traditional laser, a VCSEL provides greater bandwidth than possible with LED light sources.

With a VCSEL source, the light energy is concentrated in the center of the fiber, whereas an LED source fills the entire fiber with light energy. The farther the light energy is away from the center of the fiber, the more likely it is to escape the fiber and show up as power loss. Therefore, when LED testers are used to test gigabit multimode fibers, they tend to show more power loss than is actually present in a network using a VCSEL transmission source. With the very tight loss budgets for Gigabit Ethernet, you could actually get a FAIL reading with an LED test, when the link is really working. This could result in time wasted trying to fix a problem that doesn’t exist.

When you test with the VCSEL-based DSP-FTA440, you can be sure that you will see the actual loss that is present in the network.

Can I test either 62.5 m m or 50.0 m m fiber with the Gigabit Multimode Fiber Test Adapter?
– Yes. The DSP-FTA440 Fiber Test adapter contains a 50.0 m m internal launch fiber, so it is perfect for testing 50.0 m m fiber. And it works just as well for 62.5 m m fiber because the light is being launched from a smaller fiber (50.0 m m) into a larger fiber (62.5 m m), capturing all of the light energy. This is true for both 850 nm and 1300 nm wavelengths.

Does it matter what core size or type of patch cord I use?
– Yes. The patch cord should always match the core size and type of the fiber under test. A mismatched patch cord may cause inaccurate loss measurements at the mismatched fiber-to-fiber interface.
Fast and easy testing. Automatic documentation

Testing and certifying all types of optical networks has never been easier with the DSP Series Cable Testers and our family of Fiber Test Adapters

Fluke Networks’ DSP Fiber Test Adapters:
* Test two fibers and two wavelengths at one time.
* Utilize Fluke Networks’ comprehensive CableManager™ Software for results management and report generation.
* Allow bi-directional testing on both fibers under test and save results for both directions in the same record.
* Automatically measure length, propagation delay and loss.
* Include a built-in TALK feature that allows you to communication with a person or the other end of the fiber.
* Have a FindFiber feature that provides a quick check for users at both ends to locate a signal from the other end.
* Keep track of the maximum and minimum power throughput of the test with the Monitor feature.
* Efficiently and accurately test fiber links with any of the four major SFF connectors.
* Are built rugged to withstand the drops and other mishaps that occur in today’s network installation environments.

Buying, Selling, Trading Fluke Networks DSP-FTA440

DSP-FTA440 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke Networks DSP-FTA440 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke Networks DSP-FTA440 Multimode Fiber Modules

Fluke DSP-FTA440 Gigabit Multimode Adapter

Networks running Gigabit Ethernet over multimode fiber commonly use a new type of light source called a Vertical Cavity Surface Emitting Laser (VCSEL). VCSELs are more cost-effective than conventional lasers and it provide greater bandwidth than LED light sources.

The proper way to accurately test a fiber network using a VCSEL is with a tester that uses a VCSEL. Meet the DSP-FTA440 the world’s first VCSEL-based Fiber Test Adapter.

Combining the DSP-FTA440S with a DSP-4000 DSP-4100 or DSP-4300 provides automatic, dual-fiber loss testing and certification by using a VCSEL laser at 850 nm and a Fabry-Perot (FP) laser at 1310 nm wavelengths. It also measures the length of fiber links and certifies the results against the Gigabit Ethernet standard.

In addition, the DSP-FTA440S allows bi-directional testing on both fibers under test and saves results for both directions in the same record. Utilizing Fluke Networks’ comprehensive CableManager Software you can easily save all fiber link data electronically for results management and report generation.

Why do I need the DSP-FTA440S Gigabit Multimode Fiber Test Adapter if I already have an LED multimode tester?

• Networks running Gigabit Ethernet over multimode fiber, use a light source called a Vertical Cavity Surface Emitting Laser (VCSEL) for data transmission at 850 nm. More cost-effective than the traditional laser, a VCSEL provides greater bandwidth than possible with LED light sources.

With a VCSEL source, the light energy is concentrated in the center of the fiber, whereas an LED source fills the entire fiber with light energy. The farther the light energy is away from the center of the fiber, the more likely it is to escape the fiber and show up as power loss.

Therefore, when LED testers are used to test gigabit multimode fibers, they tend to show more power loss than is actually present in a network using a VCSEL transmission source.

With the very tight loss budgets for Gigabit Ethernet, you could actually get a FAIL reading with an LED test, when the link is really working. This could result in time wasted trying to fix a problem that doesn’t exist.

When you test with the VCSEL-based DSP-FTA440S, you can be sure that you will see the actual loss that is present in the network.

Can I test either 62.5 m m or 50.0 m m fiber with the Gigabit Multimode Fiber Test Adapter?

• Yes. The DSP-FTA440S Fiber Test adapter contains a 50.0 m m internal launch fiber, so it is perfect for testing 50.0 m m fiber. And it works just as well for 62.5 m m fiber because the light is being launched from a smaller fiber (50.0 m m) into a larger fiber (62.5 m m), capturing all of the light energy. This is true for both 850 nm and 1300 nm wavelengths.

Does it matter what core size or type of patch cord I use?

• Yes. The patch cord should always match the core size and type of the fiber under test. A mismatched patch cord may cause inaccurate loss measurements at the mismatched fiber-to-fiber interface.

Fast and easy testing. Automatic documentation

Testing and certifying all types of optical networks has never been easier with the DSP Series Cable Testers and our family of Fiber Test Adapters

Fluke Networks’ DSP Fiber Test Adapters:

• Test two fibers and two wavelengths at one time.
• Utilize Fluke Networks’ comprehensive CableManager¿ Software for results management and report generation.
• Allow bi-directional testing on both fibers under test and save results for both directions in the same record.
• Automatically measure length, propagation delay and loss.
• Include a built-in TALK feature that allows you to communication with a person or the other end of the fiber.
• Have a FindFiber feature that provides a quick check for users at both ends to locate a signal from the other end.
• Keep track of the maximum and minimum power throughput of the test with the Monitor feature.
• Efficiently and accurately test fiber links with any of the four major SFF connectors.
• Are built rugged to withstand the drops and other mishaps that occur in today’s network installation environments.

Buying, Selling, Trading Fluke Networks DSP-FTA440

DSP-FTA440 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of length

If you’re selling your Fluke Networks DSP-FTA440 please fill out form on the right hand side of page.

If you’re looking to Sell Fluke DSP-FTA430 SM Fiber Modules 4 DSP-4000/4300

Fluke FTA-430 Fiber Modules, Fluke Networks keeps its eye on the future – so you don’t have to. Powerful, High Definition Diagnostics

Complete solution for testing and certifying high-speed Fiber Networks
Fluke Networks offers the most complete line of Fiber Test Adapters for testing and certifying Single mode, Gigabit and Single-Mode fiber optic cabling systems. These Fiber Test Adapters are high-performance, high-productivity fiber test options for the DSP-4000, DSP-4100 and DSP-4300 Digital Cable Analyzers.

Features:

• Test two fibers and two wavelengths simultaneously, automatically saving the test results.
• Perform bi-directional testing on both fibers under test and save results for both in one record.
• Utilize Fluke Networks’ CableManager Software for comprehensive results management and report generation.
• Automatically measure length and propagation delay along with loss.
• Verify optical connectivity and determine which fibers go to which connectors at a patch panel.
• Communicate with a person on the other end of the fiber.
• Track the maximum and minimum power throughput of the test.
• Withstand drops and other mishaps that occur on the job.

Buying, Selling, Trading Fluke DSP-FTA430

DSP-FTA430 Specifications

General Specifications

Power supply: ±6 V supplied by the DSP-4000 test tool.
Temperature range: Operating: 0 ºC to +40 ºC; Storage: -10 ºC to +60 ºC
Warm-up time: 5 minutes
Humidity range: Operating: 0 % to 75 % RH, non-condensing
Storage: 0 % to 95 % RH, non-condensing
Dimensions: 3.3” x 4.6” x 1.9” (8.3 cm x 11.6 cm x 4.7 cm)
Weight: 7.6 oz (215 g)

Optical Transmitter

Connector: SC, multimode
Emitter type:
FTA420 – Multimode LED
FTA430 – Singlemode laser
FTA440 – 850 nm Vertical Cavity Surface Emitting Laser (VCSEL);
1310 nm FP laser
Wavelengths:
FTA420 – 850 nm and 1300 nm
FTA430 – 1310 nm and 1550 nm
FTA 440 – 850nm and 1310 nm
Power output:
FTA420 -20 dBm (10 mW), typical (into 62.5/125 mm fiber)
FTA430 and FTA440 -10 dBm
Power output stability (8 hours): ±0.25 dB at 23 °C

Optical Receiver

Power measurement accuracy: ±0.25 dBm at 23 °C, 45 % RH to 75 % RH, -20
dBm for 850 nm and 1300 nm, -10 dBm for 1550 and 1625 nm
Connector: SC, multimode or singlemode
Detector type: InGaAs
Calibrated wavelengths: 850 nm, 1300 nm, 1310 nm, 1550 and 1625 nm.
Power measurement range: +3 dBm to -50 dBm
Power measurement linearity: ±0.25 dB at 23 °C
Length Measurement:
Measured in Loopback Mode
FTA420 – 5000 meters of 62.5 um multimode cable
FTA430 – 10000 meters of singlemode cable
FTA440 – 5000 meters of 50.0 um multimode cable
Length measurement accuracy: ±1.5 m plus 2 % of leanath

If you’re selling your Fluke DSP-FTA430 please fill out form on the right hand side of page.