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IMG-1760TR

Fluke 1760TR Three-Phase Power Quality Recorder

sku Product SKU:  FLK-1760TR

Class-A compliance for the most demanding power quality tests

TheFluke 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks, this power quality monitor provides the flexibility to customize thresholds, algorithms, and measurement selections. The 1760 power recorder captures the most comprehensive details on user-selected parameters.

Applications

  • Detailed disturbance analysis – Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000 V measurement range, allows capture of very short impulses such as lightning strikes.
  • Class-A quality-of-service compliance – Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification.
  • Event correlation at multiple locations – Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility.
  • Galvanic separation and DC coupling – Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies – Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.

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IMG-1760

Fluke 1760

sku Product SKU:  FLK-1760

Class-A compliance for the most demanding power quality tests

The Fluke 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks. The Fluke 1760 provides exceptional flexibility with the ability to customize thresholds, algorithms, and measurement selections. The 1760 power recorder captures the most comprehensive details on user-selected parameters; the supplied PQAnalyze application software enables users uses the in depth measurement and produce sophisticated analysis and reports.

Applications

  • Detailed disturbance analysis – Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000 V measurement range, allows capture of very short impulses such as capacitor switching and lightning strikes.
  • Class-A quality-of-service compliance – Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification. The Fluke 1760 Class A compliance has been independently verified at a world leading power quality laboratory.
  • Event correlation at multiple locations – Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility. The accuracy of this time-stamping enables users with multiple 1760s on their network to understand the propagation of events across the network.
  • Galvanic separation and DC coupling – Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies – Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.

Other useful features:

  • Provides uninterrupted power supply (40 minutes) so you’ll never miss important events. Even records the beginning and end of interruptions and outages to help determine the cause
  • Provides continuous recording of voltage, current, power P, Q, S, power factor, kWh, flicker, unbalance, frequency, voltage and current harmonics to the 50th/Interharmonics, THD, and mains signaling
  • Provides 2 GB data memory to enable detailed, simultaneous recording of numerous power parameters for long periods of time
  • Includes comprehensive software that provides trend diagrams for root cause analysis, statistical summaries, report writing, and real-time data monitoring in the online mode
  • Allows quick plug and play setup with automatic sensor detection. Sensors are instrument powered, eliminating the need for batteries
  • Delivers reliable testing under nearly any conditions with rugged insulated housing and a solid state design that has no rotating components
  • Comes with four dual-range flexible current probes (1000 A/200 A AC)

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FLK-1760-TR-Basic

Fluke 1760TR Basic

sku Product SKU:  FLK-1760TR-basic

Product overview: Fluke 1760TR Basic Three-Phase Power Quality Recorder

Class-A compliance for the most demanding power quality tests

The Fluke 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks. The Fluke 1760 provides exceptional flexibility with the ability to customize thresholds, algorithms, and measurement selections. The 1760 power recorder captures the most comprehensive details on user-selected parameters; the supplied PQAnalyze application software enables users uses the in depth measurement and produce sophisticated analysis and reports.

Applications

  • Detailed disturbance analysis – Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000 V measurement range, allows capture of very short impulses such as capacitor switching and lightning strikes.
  • Class-A quality-of-service compliance – Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification. The Fluke 1760 Class A compliance has been independently verified at a world leading power quality laboratory.
  • Event correlation at multiple locations – Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility. The accuracy of this time-stamping enables users with multiple 1760s on their network to understand the propagation of events across the network.
  • Galvanic separation and DC coupling – Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies – Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.

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IMG-Norma-5000

Fluke Norma 5000 Power Analyzers

sku Product SKU:  FLK-Norma-5000

Product overview: Fluke Norma 5000 Power Analyzers

Reliable, highly accurate measurements for the test and development of power electronics.

The compact Fluke Norma Series Power Analyzers provide the latest measurement technology to assist engineers with the development and testing of motors, inverters, lighting, power supplies, transformers and automotive components.

Based on a patented, high-bandwidth architecture, the instruments deliver high-precision measurements of single or three-phase current and voltage, harmonics analysis, Fast Fourier Transformation (FFT) analysis, as well as calculations of power and other derived values.

The Fluke Norma 5000 Six-Phase Power Analyzer is a rugged, high-precision analyzer providing unmatched price performance for easy and reliable use in the field, or as a bench unit in laboratories and on test benches.

Applications

  • Electric motors and inverter drive systems – Through detailed spectrum analysis and dynamic torque calculation capabilities, switching losses caused by the inverter are accurately measured, and a thorough evaluation is made of torque transients and harmonics at higher frequencies.
  • Inverter drive system – Simultaneous measurement of all electrical and mechanical power parameters in the same time window enables users to observe the influence one component has on another, or on the whole system.
  • Lighting systems – A wide bandwidth of up to 10 MHz and a high sampling rate up to 1 MHz provide detailed signal analysis at ballast outputs. A unique shunt technique enables power measurements at very high frequencies. Simultaneous measurement of input and output power provides instant calculation of ballast losses.
  • Transformers – Synchronous six-phase power measurements enable highly accurate efficiency and loss calculations of large power transformers even at very low power factors. Synchronous multiphase resistance measurements of transformer coils are also possible.
  • Automotive – Synchronous electrical input and mechanical output measurements provide complete data on the efficiency and losses of individual components as well as the whole drive system.

Other useful features:

  • Performs simultaneous parallel acquisition of all phases to allow accurate viewing of dynamic events on all phases at exactly the same point in time
  • Compact design makes it easy to carry and saves working space.
  • Provides galvanically-isolated inputs to avoid short circuits in all applications
  • Includes FFT analysis, vector diagram, and digital oscilloscope (DSO) mode in the base unit for complete analysis capability
  • Offers user-selectable average time—from 15 ms up to 3600 s—for dynamic measurements
  • Includes 4 MB on-board memory (expandable to 128 MB) for storing measured values
  • Allows fast and easy connection to a PC; RS232 and USB included as standard; optional IEEE488, Ethernet, or USB2.0
  • Provides PI1 process interface to measure torque and speed with external sensors, plus four analog outputs for easy use on motor and drive applications
  • Features 341 kHz or 1 MHz sample rates for detailed signal analysis
  • Provides bandwidth from DC to 3 MHz or DC to 10 MHz for reliable measurement precision.
  • Includes Fluke NormaView PC software for data download, analysis, and reporting

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Fluke-ii910

ii910 Precision Acoustic Imager

sku Product SKU:  FLK-ii910

Finally, an easy way to detect, locate and analyze partial discharge in one tool

Tired of spending too much time detecting partial discharge? Introducing the ii910 Precision Acoustic Imager, engineered to locate partial discharge, corona discharge as well as gas and vacuum leaks. The ii910 acoustic imaging camera's groundbreaking technology is a cost efficient, safe, effective, and comfortable tool for teams who inspect and maintain power distribution and industrial high voltage equipment.

The invisible threat….now you can see

Partial discharge is a serious issue that teams monitor everyday. Whether you are scanning insulators, transformers, switch gears or high-voltage powerlines you need to be sure that you spot a problem quickly and early. Partial discharge that goes unchecked can cause blackouts, fires, explosions, or death from arc flashes. In addition to the danger that this can pose to the environment and human lives, it also has a very steep price tag. Having equipment go down can cost millions of dollars per hour and studies have shown that a single data center outage could cost as much as $8,851 per minute. On top of this, the Department of Energy estimated that outages cost the US economy $150 billion annually.

Key areas to scan for PD

  • Insulators
  • Transformers
  • High voltage powerlines
  • Switch gears
  • Arrestors
  • Busbars
  • High voltage coils
  • Breakers
  • Capacitors

Do it fast, Do it safe

The ii910 is the all-in-one tool you have been looking for when it comes to all your leak, PD, and mechanical issues. Everything you need is right at your fingertips. Quickly scan the area or environment and get all the pictures and videos you need with the simple one-button capture and large 7” touchscreen LCD. No additional tools or equipment needed. With no cumbersome secondary cables or devices needed, you have full mobility and greater flexibility to swap between detecting leak/PD/mechanical issues and fixing the issues.

Fluke safety you can trust with performance you value

The Fluke ii910 Precision Acoustic Imager is the perfect tool for high voltage electricians, electrical test engineers, and grid maintenance teams that are constantly inspecting and maintaining power distribution and industrial high voltage equipment. The ii910 provides a safe quick and easy way to detect and locate partial discharge in order to maintain high voltage equipment and prevent catastrophic events. With the SoundSight™ technology the ii910 translates the sounds that it hears into a visual representation so that you can quickly locate problem areas. The higher frequency capability of the ii910 allows for earlier detection to facilitate early maintenance planning that is why the ii910 has a frequency range of 2-100Khz.

Find and fix before flash

Partial discharge can cause a number of very serious and expensive problems from catastrophic equipment failure to lethal arc flashes. The only way to stop this from happening is to inspect and maintain the equipment properly. The ii910 Precision Acoustic Imager is built to make finding PD much more comfortable faster and easy. Gone are the days of wearing headphones and listening for very faint sounds or squinting at a small screen to locate issues. Everything you will need to locate issues from a large distance is in the ii910, no cords or other accessories hanging down and getting tangled. Simply pick it up, turn it on and start locating issues.

Safety you expect with the rugged product you trust

Safety is key when working on high voltage equipment and here at Fluke safety is all that matters, everything else is just a bonus. Due to the combination of specific microphone positions and a sophisticated algorithm the ii910 Precision Acoustic Imager can detect PD and Corona Discharge from 120 meters away. This means that you can stay even further than the required distance away while still being effective and efficient at finding all of the problem areas. With no external cords or dangling accessories the ii910 ensures that you wont get tangled up in any equipment as you do your rounds. In addition with the acoustic imaging technology being able to pick up reflections of sounds you don’t even need to have direct line of sight to locate a problem. This means you can locate PD without ever opening a cabinet.

Find it quickly, find it easily with no training

The ii910 is truly designed so that anyone can use it with little to no training. Tear up those certifications because you don’t need one to operate this tool. Simply turn on the ii910 with one button select your frequency range (or let the tool do that for you) and start scanning around immediately looking for PD, leaks, or mechanical areas of interest. Once you find a concerning image of a sound you can take a video or a photo to be used later after you have added any text annotation. If you want to know more details about a specific leak, PD, or potential mechanical issue, switch into PDQ, LeakQ, or MecQ mode.

LeakQ online reporting tool

  • Local PC installed application
  • No Leak Type selection (should be included at time of capturing the measurement)
  • Offers customization of reporting template

Fluke PDQ Mode™ Reporting Tool with Acoustic Imaging

  • Web (cloud) based solution
  • Standardized reporting template
  • Leak Type selection per capture

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IMG-1760-Basic

Fluke 1760 Basic Three-Phase Power Quality Recorder

sku Product SKU:  FLK-1760-Basic

Class-A compliance for the most demanding power quality tests

The Fluke 1760 Three-Phase Power Quality Recorder is fully compliant to IEC 61000-4-30 Class-A, for advanced power quality analysis and consistent compliance testing. Designed for analysis of utility and industrial power distribution systems, in medium- and low-voltage networks. The Fluke 1760 provides exceptional flexibility with the ability to customize thresholds, algorithms, and measurement selections. The 1760 power recorder captures the most comprehensive details on user-selected parameters; the supplied PQAnalyze application software enables users uses the in depth measurement and produce sophisticated analysis and reports.

Applications

  • Detailed disturbance analysis – Perform high-speed transient analysis and uncover root cause of equipment malfunction for later mitigation and predictive maintenance. The fast transient option, with its 6000 V measurement range, allows capture of very short impulses such as capacitor switching and lightning strikes.
  • Class-A quality-of-service compliance – Validate incoming power quality at the service entrance. Thanks to Class A compliance, the Fluke 1760 allows undisputable verification. The Fluke 1760 Class A compliance has been independently verified at a world leading power quality laboratory.
  • Event correlation at multiple locations – Utilizing GPS time synchronization, users can quickly detect where a fault occurred first, either inside or outside the facility. The accuracy of this time-stamping enables users with multiple 1760s on their network to understand the propagation of events across the network.
  • Galvanic separation and DC coupling – Allows complete measurements on dissimilar power systems. For example troubleshoot UPS systems by simultaneously recording the battery voltage and power output.
  • Power quality and power load studies – Assess baseline power quality to validate compatibility with critical systems before installation and verify electrical system capacity before adding loads.

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FLK-TiX580(4)

Fluke TiX580 Infrared Camera

sku Product SKU:  FLK-TiX580

Contact us to directly to ensure that you selet the right instrument for your application

Does everyone in the plant turn to you? Are you the one who quickly can collect facts, understand issues and mold process and procedures to meet expensive decisions head-on? If so, you need an infrared camera that is as flexible and detail oriented as you are. That is why the TiX580 should always be within arm’s reach. Your day can take you anywhere:

  • R&D lab
  • Production floor
  • Off site, remote locations
  • Transmission and distribution lines (substations)

From quality assurance to preventive maintenance and outdoor inspections, everyday can bring a different environment and a different challenge for your thermal imager. With an unsurpassed level of detail in every infrared image and the ability to capture quality images of objects whether they are tiny and close to large and far overhead. The ergonomic design and neck strap make long inspection days easier. Outside the rotating screen lets you adjust to minimize glare and the touchscreen delivers a premium in-field viewing experience. The TiX580 has the tools accommodate your environment.

  • Real-time temperature graphs
  • Radiometric video recording
  • Auto capture image sequence
  • MatLab and LabView integration capabilities

Get the most out of your TiX580 with Fluke Connect™ desktop software. Create professional reports in minutes while effic

  • Edit and optimize images
  • Combine infrared and visible images for simpler analysis
  • Create detailed reports
  • Organize and search images by asset, severity, and title

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FFLK-729

Fluke 729

sku Product SKU:  FLK-729

Portable automatic pressure calibrator simplifies pressure calibration

The Fluke 729 Automatic Pressure Calibrator has been designed specifically with process technicians in mind to simplify the pres­sure calibration process and provide faster, more accurate test results. Technicians know that calibrating pressure can be a time-consuming task, but the 729 makes it easier than ever with an internal electric pump that provides automatic pressure generation and regulation in an in an easy-to-use, rugged, portable package.

The ideal portable pressure calibrator, the 729 allows you to simply type in a target pressure, and the calibrator will automatically pump to the desired set-point. Then, internal fine adjustment con­trol automatically stabilizes the pressure at the requested value.

The Fluke 729 can also automatically test multiple pressure test points and automatically document the results. Calibration is as easy as typing in the starting and ending pressure and the number of test points and tolerance level. The 729 does the rest.

Built-in HART communication capabilities enable HART transmitter mA adjustments, light HART configuration and the ability to adjust to applied 0% and 100% values.

Upload and manage documented calibration results with DPCTrack2™ Calibration Management Software, making it easy to manage your instrumentation, create scheduled tests and reports, and manage calibration data.

With three ranges to choose from, 30 psi (2 bar, 200 kPa), 150 psi (10 bar, 1 MPa) and 300 psi (20 bar, 2 MPa), Fluke 729 Automatic Pressure Calibrators are designed to perform when and where you need them.

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Fluke PVA-1500 series Front view

Fluke PVA-1500 Series

sku Product SKU:  FLK-PVA-1500s

Measure your solar PV system performance

The PVA-1500 is a cutting-edge I-V curve tracer kit designed to measure PV system performance. With this high precision testing equipment, you can reliably assess the health and performance of solar modules and arrays, making informed decisions to enhance their output and longevity.

The PVA-1500 kit offers an array of advanced features, including high throughput I-V curve tracing, providing quick and detailed performance data. Its intuitive user interface enables easy navigation and real-time analysis, allowing for immediate identification of potential issues. By pinpointing problems early, you can maximize your solar energy production and minimize downtime.

Comprehensive measurements and efficient analysis

For commissioning, operations, maintenance, and troubleshooting of PV arrays, I-V curve testing is the most complete solar module performance measurement. Quick analysis of curve datasets aids in detecting outliers, and the stored data functions as a baseline for future performance inquiries.

Accurate I-V curve tracing

The PVA measures the I-V (current versus voltage) curve of a PV string or module using a capacitive load. The measurement is typically performed at the string level by connecting directly to the string or at a combiner box using the fuses to select the string under test. The number of I-V curve points can be selected at 100 or 500. Additionally, the PVA generates the P-V (power versus voltage) curve, Isc, Voc, Imp, Vmp, Pmax, fill factor, and performance factor (the ratio of measured to expected maximum power).

Time-saving interface

With a tablet or laptop (Windows only) as the user interface, perform more tests per hour and display the data in multiple, easy to read formats. Save your measurements by touching your customized array tree at the branch you are measuring. The software automatically calculates the expected I-V curve and displays the performance factor.

Advanced High Efficiency PV Testing Capabilities

Accurate measurement of high efficiency modules up to 30A: Highly efficient modules (>19% module efficiency) possess high capacitance, posing a challenge for some I-V curve tracers that may not be able to measure them. The PVA-1500HE2 is uniquely designed to measure all string types, even those with high efficiency modules, up to 30A. Rapid performance in high temperature environments: The PVA-1500HE2 operates with a swift sweep-to-sweep delay of 9 seconds (at Voc < 1350V). This results in the ability to measure 3.5 MW within an hour, even in high-temperature settings where standard curve tracers often fail due to overheating.

SolSensor™ Wireless PV Reference Sensor

The SolSensor™ provides irradiance, module temperature, and array tilt data to the PV model. The model uses this information to predict the I-V curve shape at these operating conditions and to translate the measured curve to standard test conditions. The SolSensor™ clamps to the module frame, automatically orienting the irradiance sensor to the plane-of-array.

The spectral response of the silicon photodiode sensor in the SolSensor™ is corrected for the PV technology under test. Special factors are provided for multi- and mono-crystalline cells as well as cadmium telluride (CdTe) and other thin film technologies. The sensor is temperature compensated and the angular response of each unit is calibrated for rotation and elevation. As a result, the SolSensor™ is accurate over a broad range of technologies, sky conditions, and sun angles, allowing I-V curve measurements earlier and later in the day.

The SolSensor™ provides two external thermocouple inputs for measuring module backside temperatures. Effective cell temperature can also be calculated directly from the measured I-V curve per IEC 60904-5. The PVA’s SmartTemp™ feature, optionally, blends these two methods for best accuracy.

The PVA and SolSensor™ communicate wirelessly with your PC via WiFi with a line-of-sight wireless range of 100m. That means no wires underfoot, quick setup, the ability to move around while troubleshooting strings, and flexibility to measure multiple combiner boxes with a single SolSensor™ setup.

Turn PVA data into key insights, visualizations, and customizable reports

Capture data in the field with the PVA Application and validate the results with the Data Analysis Tool (DAT), a Microsoft Excel™-based solution streamlining the analysis of PVA I-V curve data. It presents analysis results in multiple formats. It compiles key PV parameters in a string table, flags non-conforming strings, and delivers a statistical overview of the entire array. Additionally, it visually combines string I-V curves at the combiner box level, offering a clear depiction of consistency and identifying atypical strings. The tool also generates histograms for PV parameters across the string population, and this data can be added to a customizable report exported as a PDF. The Data Analysis Tool (DAT) can be downloaded for free use with any PVA. Supported languages: English, French, Spanish, German, Italian, Traditional Chinese, Simplified Chinese, and Brazilian Portuguese.

Download the PVA Application and Data Analysis Tool

Training

Fluke offers a variety of training related to PV test and measurement. Training can either be delivered as a virtual on-demand course or as a live online presentation/discussion format with a product expert (may differ regionally).

 

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Fluke-TI480-Pro

Fluke Ti480 PRO Infrared Camera 9Hz

sku Product SKU:  FLK-Ti480PRO

Product overview: Fluke Ti480 PRO Infrared Camera

Increased sensitivity to visualize differences

  • Capture smaller temperature differences with increased thermal sensitivity

Easier to visualize and diagnose issues

  • Sharper onscreen images with better visual colour differentiation
  • Display deviations from standard temperatures and communicate issues with your team using multiple Delta-T markers - choose one as a reference point and the others to display a value as a difference
  • Multiple rectangle markers in-camera - identify min/max temperatures for an area of the equipment or an equipment array
  • Distinguish heat differences more easily with a new palette and a wider array of yellows and greens in the display

New intuitive user interface
New intuitive user interface

Old user interfaceOld user interface

More intuitive visual interface

  • Improved, user-tested, touchscreen interface leverages current styles and is more intuitive than ever

More flexibility to visualize targets -  tiny to large

  • Now compatible with all Fluke infrared smart lenses
  • Macro, telephoto and wide-angle – from tiny to large, capture your target
  • Fluke smart lenses are interchangeable between compatible cameras without calibration

With the Ti480 PRO MultiSharp™ focus captures images that are focused throughout the field of view, even if you start from a completely blurry target. The camera takes multiple images and combines them to give a clear, accurate focus on targets near and far. See more detail with SuperResolution, offering 4x the pixel data. Using the software and SuperResolution you can view images with up to 1280 x 960 resolution.

Save time with the Fluke Connect® system 
You can wirelessly sync images directly from your camera to the 
Fluke Connect® system, and attach it to an asset record or work order. Having access to maintenance records simultaneously at the inspection site and from the office or an off-site location enables faster decision making and real-time collaboration between team members. You can also live stream the camera display to your smartphone or PC and remotely control the camera.

Technician reviewing measurements from Fluke Connect® tools on smartphone
Capture and save measurements from your wireless-enabled test tools to the Fluke Connect® app on your smartphone.
Comparing two IR images on Fluke Connect™ Assets software
Asset analysis dashboard: Easily compare complex data.

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IMG-PicoScope9404_SDK

PicoScope 9404 Series

sku Product SKU:  PIC-9404s

5 & 16 GHz Sampler Extended Real-Time Oscilloscopes

The PicoScope 9400 Series is a new class of SXRTO oscilloscopes that combine the benefits of real-time sampling, equivalent-time sampling, and high analog bandwidth.

  • SXRTO (sampler-extended real-time oscilloscope)
  • 9404-16: 16 GHz bandwidth, 22 ps transition time and 2.5 TS/s (0.4 ps resolution) equivalent-time sampling
  • 9404-05: 5 GHz bandwidth, 70 ps transition time and 1 TS/s (1 ps resolution) equivalent-time sampling
  • Pulse, eye and mask testing down to 100 ps and up to 8 Gb/s
  • Four 12-bit 500 MS/s ADCs
  • Intuitive and configurable touch-compatible Windows user interface
  • Comprehensive built-in measurements, zooms, data masks, and histograms
  • ±800 mV full-scale input range into 50 Ω
  • 10 mV/div to 0.25 V/div ranges provided by digital gain
  • Up to 250 kS trace length, shared between channels
  • Optional clock and data recovery (8 Gb/s on 9404-16, 5 Gb/s on 9404-05)

The PicoScope 9400 Series SXRTOs has four input channels up to 16 GHz with market-leading ADC, timing, and display resolutions for accurately measuring and visualizing high-speed analog and data signals. They are ideal for capturing pulse and step transitions down to 22 ps, impulses down to 45 ps, and clocks and data eyes to 8 Gb/s. Most high-bandwidth applications involve repetitive signals or clock-related data streams that can be readily analyzed by equivalent-time sampling (ETS). The SXRTO quickly builds ETS, persistence displays, and statistics. It has a built-in full-bandwidth trigger on every channel, with pretrigger ETS capture too well above the Nyquist sampling rate. There are three acquisition modes—real-time, ETS, and roll—all capturing at 12-bit resolution into a shared memory of 250 kS.

The PicoSample 4 software is derived from our existing PicoSample 3 and PicoScope 9000 products, which together represent over ten years of development, customer feedback, and optimization.

The high-resolution display can be resized to fit any window, filling 4k and even larger monitors or arrays of monitors. Four independent zoom channels can show you different views of your data down to a resolution of 0.4 ps. Most of the controls and status panels can be shown or hidden according to your application, allowing you to make optimal use of the display area.

The oscilloscope has a 2.5 GHz direct trigger that can be driven from any input channel, and a built-in prescaler can extend the trigger bandwidth to 5 GHz. The external prescaler on 9404-16 extends this further to 16 GHz.

These compact units are small enough to place on your workbench close to the device under test. Now, instead of using remote probe heads attached to a large benchtop unit, all you need is a short, low-loss coaxial cable. Everything else you need is built into the oscilloscope, with no expensive hardware or software add-ons to worry about, and we don’t charge you for new software features and updates.

Typical applications

  • Telecom and radar test, service and manufacturing
  • Optical fiber, transceiver, and laser testing (optical to electrical conversion not included)
  • RF, microwave, and gigabit digital system measurements
  • Signal, eye, pulse, and impulse characterization
  • Precision timing and phase analysis
  • Digital system design and characterization
  • Eye diagram, mask, and limits test up to 8 Gb/s
  • Clock and data recovery at up to 8 Gb/s
  • Ethernet, HDMI 1, PCI, SATA, USB 2.0
  • Semiconductor characterization
  • Signal, data, and pulse/impulse integrity and pre-compliance testing

High-bandwidth probes

The PicoConnect 900 Series low-impedance, high-bandwidth probes are ideal companions for the PicoScope 9400 Series, allowing cost-effective fingertip browsing of fast signals. Two series are available:

  • RF, microwave, and pulse probes for broadband signals up to 5 GHz (10 Gb/s)
  • Gigabit probes for data streams such as USB 2, HDMI 1, Ethernet, PCIe, and SATA

Other features

Bandwidth limit filters

A selectable analog bandwidth limiter (100 or 450 MHz) on each input channel can be used to reject high frequencies and associated noise. The narrow setting can be used as an anti-alias filter.

Frequency counter

A dedicated frequency counter shows signal frequency (or period) at all times, regardless of measurement and timebase settings, with a resolution of 1 ppm.

Optional clock and data recovery

Clock and data recovery (CDR) is now available as a factory-fitted optional trigger feature for the PicoScope 9404-16 and 9404-05 SXRTOs.

Associated with high-speed serial data applications, clock, and data recovery will already be familiar to PicoScope 9300 users. While low-speed serial data can often be accompanied by a separate clock signal, at high speed this approach would create timing skew and jitter between the clock and the data that could prevent accurate data decoding. Thus high-speed data receivers will generate a new clock, and using a phase-locked loop technique they will lock and align that new clock to the incoming data stream. This is the recovered clock, which can then be used to decode and thus recover data accurately. They have also saved the cost of an entire clock signal path by now needing only the serial data signal.

In many applications requiring our oscilloscopes to view the data, the data generator and its clock will be close at hand and we can trigger off that clock. However, if only the data is available (at the far end of an optical fiber, for instance), we will need the CDR option to recover the clock and then trigger off that instead. We may also need to use the CDR option in demanding eye and jitter measurements. This is because we want our instrument to measure as exactly as possible the signal quality that a recovered clock and data receiver will "see".

When fitted, the PicoScope 9400 CDR option can be selected as the trigger source from any input channel. Additionally, for use by other instruments or by downstream system elements, two SMA(f) outputs present recovered clock and recovered data from the rear panel.

Contact Comtest to order this option.

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IMG-FLK754

Fluke 754 Documenting Process Calibrator-HART

sku Product SKU:  FLK-754

Product overview: Fluke 754 Documenting Process Calibrator-HART

Fluke 754 Documenting Process Calibrator with HART communication does the work of many tools

Whether you're calibrating instruments, troubleshooting a problem, or running routine maintenance, the Fluke 754 with HART® communication can help you get the job done faster. It does so many different tasks, so quickly and so well, it's the only process calibrator you need to carry. This rugged, reliable integrated communicating calibrator is ideal for calibrating, maintaining, and troubleshooting HART and other instrumentation.

The 754 is a power multifunction documenting calibrator that you can use to download procedures, lists, and instructions created with software; or upload data for printing, archiving, and analysis. The powerful built-in HART interface is capable of performing nearly all the day-to-day tasks you now perform with a separate communicator.

In fact, the 754 does the work of several tools. It sources simulates and measures pressure, temperature, and electrical signals with one rugged, hand-held device. For documentation, the 754 automates calibration procedures and captures your data. And, of course, it helps you meet rigorous standards like ISO 9000, FDA, EPA and OSHA regulations. Plus, the new improved graphical screen, Li-Ion battery for longer life, USB port, and accessories help you work smarter and faster.

To create a seamless/paperless calibration management system consider adding Fluke DPCTrack2 Calibration Management software for use with your Fluke 753 and 754 or even legacy Fluke 743 and 744 calibrators.

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PicoScope 9300 Series

sku Product SKU:  PIC-9300-S

With up to 25 GHz bandwidth, the PicoScope 9300 sampling oscilloscopes address digital and telecommunications applications of 10 Gb/s and higher, microwave applications up to 25 GHz and timing applications with a resolution down to 64 fs. Optional 11.3 Gb/s clock recovery, optical to electrical converter or differential, deskewable time domain reflectometry sources (60 ps/7 V) complete a powerful, small-footprint and cost-effective measurement package.
 

Sampling Oscilloscopes to 25 GHz with TDR/TDT and Optical models

15 to 25 GHz electrical, 9.5 GHz optical, TDR/TDT, 2-channel and 4-channel, compact, portable, USB instruments.

These units occupy very little space on your workbench and are small enough to carry with your laptop for on-site testing, but that’s not all. Instead of using remote probe heads attached to a large bench-top unit, you can position the scope right next to the device under test. Now all that lies between your scope and the DUT is a short, low-loss coaxial cable. Everything you need is built into the oscilloscope, with no expensive hardware or software add-ons to worry about.

Key specifications

  • 15 TS/s (64 fs) sequential sampling
  • Up to 15 GHz prescaled, 2.5 GHz direct trigger and 11.3 Gb/s clock recovery
  • Industry-leading 16-bit 1 MS/s ADC and 60 dB dynamic range
  • Eye and mask testing to 16 Gb/s with up to 223–1 pattern lock
  • Intuitive, touch-compatible Windows user interface
  • Comprehensive built-in measurements, histogramming and editable data mask library
  • Integrated, differential, deskewable TDR/TDT step generator

Typical applications

  • Telecom and radar test, service and manufacturing
  • Optical fiber, transceiver and laser testing
  • RF, microwave and gigabit digital system measurements
  • Radar bands I, G, P, L, S, C, X, Ku
  • Precision timing and phase analysis
  • Digital system design and characterization
  • Eye diagram, mask and limits test to 10 Gb/s
  • Ethernet, HDMI 1, HDMI 2, PCI, SATA, USB 2.0, USB 3.0
  • TDR/TDT analysis of cables, connectors, backplanes, PCBs and networks
  • Optical fiber, transceiver and laser test
  • Semiconductor characterization

Remember: the price you pay for your PicoScope Sampling Oscilloscope is the price you pay for everything – we don’t charge you for software features or updates.

Migrating from the legacy PicoScope 9200 to the PicoScope 9300? 
Help me compare

The now broader range of 9300 models and bandwidths is designed to offer high compatibility and upgraded functionality to replace the successful but now obsolete 9200 series of 12 GHz sampling oscilloscopes. A detailed intercomparison and assistance to migration is provided here:

Migrating from the legacy PicoScope 9200 to the PicoScope 9300? Help me compare

 

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Fluke MDA 550 Promotion

Fluke MDA-550

sku Product SKU:  FLK-MDA-550

Simplify complex motor-drive troubleshooting with guided test setups and automated drive measurements that provide reliable, repeatable test results.

The Fluke  MDA 550 Motor-Drive Analysers save time and eliminate the hassle of setting up complex measurements, while simplifying the troubleshooting process for variable frequency drives. Simply select a test and the step-by-step guided measurements show you where to make voltage and current connections, while the preset measurement profiles ensure you will capture all the data you need for each critical motor-drive section—from the input to the output, the DC bus, and the motor itself. From basic to advanced measurements, the MDA-500 Series has you covered, and with a built-in report generator you can quickly and easily generate as-found, and as-left reports with confidence.

The  MDA-550 are the ideal portable motor-drive analysis test tools and can help safely locate and troubleshoot typical problems on inverter type motor-drive systems.

  • Measure key motor-drive parameters including voltage, current, DC Bus voltage level and AC ripple, voltage and current unbalance and harmonics (MDA-550), voltage modulation, and motor shaft voltage discharges (MDA-550).
  • Perform extended harmonics measurements to identify the effects of low and high order harmonics on your electrical power system.
  • Conduct guided measurements for motor-drive input, DC bus, drive output, motor input and shaft measurements (MDA-550) with graphical step-by-step voltage and current connection diagrams.
  • Use simplified measurement setup with preset measurement profiles to automatically trigger data collection based on the chosen test procedure.
  • Create reports quickly and easily that are perfect for documenting troubleshooting and collaborative work with others.
  • Measure additional electrical parameters with full 500 MHz oscilloscope, meter and recording capability for complete range of electrical and electronic measurement on industrial systems.

 

The Fluke MDA-510 and MDA-550 Motor Drive Analyzers use guided test measurements to make analysis easier than ever.

Drive input

Measure input voltage and current to quickly see whether values are within acceptable limits by comparing the variable frequency drive’s (VFD), also known as a variable speed drive (VSD) or adjustable speed drive (ASD), nominal rated voltage to the actual supplied voltage. Then, check the input current to determine if the current is within the maximum rating and the conductors are suitably sized. You can also check whether the harmonic distortion is within an acceptable level by visually inspecting the waveform shape or by viewing the harmonics spectrum screen (MDA-550) with total harmonic distortion and individual harmonics.

Voltage and current unbalance

Check the voltage unbalance at the input terminals of the frequency speed drive so you can ensure the phase unbalance is not too high (> 6-8 %), and that the phase rotation is correct. You can also check the current unbalance, as excessive unbalance may indicate a drive rectifier problem.

Extended harmonic measurements

Excessive harmonics are not just a threat to your rotating machines but also to other equipment connected to the electrical power system. The MDA-550 provides the ability to discover the harmonics of the motor-drive but can also discover the possible effects of inverter switching electronics. The MDA-550 has three harmonic ranges, 1st to 51st Harmonics, 1 to 9 kHz and 9 kHz to 150 kHz giving the ability to detect any harmonic pollution problems.

DC bus

In a motor-drive the conversion of AC to DC inside the drive is critical, having the correct voltage and adequate smoothing with low ripple is required for the best drive performance. High ripple voltage may be an indicator of failed capacitors or incorrect sizing of the connected motor. The record function of the MDA-500 Series can be used to check DC bus performance dynamically in the operating mode while a load is applied.

Drive output

Check the output of the inverter drive focusing both on voltage to frequency ratio (V/F), and voltage modulation. When high V/F ratio measurements are experienced, the motor may overheat. With low V/F ratios, the connected motor may not be able to provide the required torque at the load to sufficiently run the intended process.

Voltage modulation

Measurements of the Pulse Width Modulated signal are used to check for high voltage peaks which can damage motor winding insulation. The rise time or steepness of impulses is indicated by the dV/dt reading (rate of voltage change over time), this should be compared to the motor’s specified insulation. The measurements can also be used to measure switching frequency to identify whether there is a potential issue with electronic switching, or with grounding, where the signal floats up and down.

Motor input

Ensuring that voltage is being supplied at the motor input terminals is key, and the selection of cabling from drive to the motor is critical. Incorrect cabling selection can result in both drive and motor damage due to excessive reflected voltage peaks. Checking that the current present at the terminals is within the motor rating is important as over current condition could cause the motor to run hot, decreasing the life of the stator insulation which can result in the early failure of the motor.

Motor shaft voltage

Voltage pulses from a variable frequency drive can couple from a motor’s stator to its rotor, causing a voltage to appear on the rotor shaft. When this rotor shaft voltage exceeds the insulating capacity of the bearing grease, flashover currents (sparking) can occur, causing pitting and fluting of the motor bearing race, damage that can cause a motor to fail prematurely. The MDA-550 Series analyzers are supplied with carbon fiber brush probe tips that can easily detect the presence of destructive flashover currents, while the impulse amplitude and count of events will enable you to take action before failure occurs. The addition of this accessory and capability of the MDA-550 allows you to discover potential damage without investing in expensive permanently installed solutions.

Step-by-step guided measurements ensure you have the data you need, when you need it

The MDA-500 Series is designed to help you quickly and easily test and troubleshoot typical problems on three-phase and single-phase inverter type motor-drive systems. The on-screen information, and step-by-step setup guidance make it easy to configure the analyzer and get the drive measurements you need to make better maintenance decisions, fast. From power input to the installed motor, the MDA-500 provides the measurement capability for the fastest motor-drive troubleshooting.

 
  • Connection Diagram Drive Input

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PicoScope 6000E Series 8-channel ultra-deep-memory oscilloscopes

sku Product SKU:  PIC-6000E-s

Performance and functionality for debugging next-generation embedded systems

The PicoScope 6000E Series fixed-resolution and FlexRes oscilloscopes provide 8 to 12 bits of vertical resolution, with 500 MHz bandwidth and 5 GS/s sampling rate. Eight analog channels have the timing and amplitude resolution you need to reveal signal integrity issues such as glitches, runts, dropouts, noise, distortion and ringing. 16 digital MSO channels enable the debug and verification of complex ECUs and FPGA-based designs.

  • 8-bit to 12-bit FlexRes® ADCs
  • 8 x 500 MHz analog channels
  • Up to 16 x 1 Gb/s digital channels
  • Dual 5 GS/s ADCs
  • 4 GS capture memory (up to 2 GS per trace)
  • 50 MHz 200 MS/s 14-bit AWG
  • 300 000 waveforms per second update rate
  • Free PicoScope 6 and PicoSDK software
  • Serial decoding and mask limit testing
  • High-resolution timestamping of waveforms
  • Over ten million DeepMeasure™ results per acquisition
  • Advanced triggers: pulse width, runt pulse, windowed, logic and dropout

Typical applications

These oscilloscopes, with PicoScope 6 application software, are ideal for design engineers working with high-performance embedded systems, signal processing, power electronics, mechatronics and automotive designs, and for researchers and scientists working on multichannel high-performance experiments in physics labs, particle accelerators and similar facilities.

The PicoScope 6000E Application Programming Interface (API) provides programming access to the full set of advanced hardware features and can be used to develop diverse custom and OEM applications. 

Best-in-class bandwidth, sampling rate and memory depth

With 500 MHz analog bandwidth complemented by a real-time sampling rate of 5 GS/s, the PicoScope 6000E Series scopes can display single-shot pulses with 200 ps time resolution.

The PicoScope 6000E Series gives you the deepest capture memory—up to 4 GS in total—available as standard on any oscilloscope at any price. This ultra-deep memory allows the oscilloscope to capture 200 ms waveforms at its maximum sampling rate of 5 GS/s.

The SuperSpeed USB 3.0 interface and hardware acceleration ensure that the display is smooth and responsive even with long captures.

The PicoScope 6000E Series gives you the waveform memory, resolution and analysis tools that you need to perform stringent testing of high-performance electronics devices and next-generation embedded system designs.

Power, portability and performance

Conventional eight-channel benchtop mixed-signal oscilloscopes occupy too much space on the bench and are too costly for most engineers working on next-generation designs. PicoScope 6000E Series oscilloscopes are small and portable, while offering the high-performance specifications required by engineers in the lab or on the move.

These oscilloscopes offer 8 analog channels, plus an optional 8 or 16 digital channels with the plug-in 8-channel TA369 MSO pods. The flexible high‑resolution display options enable you to view and analyze each signal in detail.

Supported by the PicoScope 6 software, these devices offer an ideal, cost-effective package for many applications, including design, research, test, education, service, and repair. PicoScope 6 is included in the cost of your scope, available for free download, with free updates, and can be installed on as many PCs as you want, including to view/analyze data off-line without the scope

High-end features as standard

Buying a PicoScope is not like making a purchase from other oscilloscope companies, where optional extras considerably increase the price. With our scopes, high-end features such as serial decoding, mask limit testing, advanced math channels, segmented memory, hardware-based timestamping and a signal generator are all included in the price.

To protect your investment, both the PC software and firmware inside the scope can be updated. Pico Technology has a long history of providing new features for free through software downloads. We deliver on our promises of future enhancements year after year. Users of our products reward us by becoming lifelong customers and frequently recommending us to their colleagues.

Powerful tools provide endless options

Your PicoScope is provided with many powerful tools to help you acquire and analyze waveforms. While these tools can be used on their own, the real power of PicoScope lies in the way they have been designed to work together.

As an example, the rapid trigger mode allows you to collect 10 000 waveforms in a few milliseconds with minimal dead time between them. Manually searching through these waveforms would be time-consuming, so just pick a waveform you are happy with and let the mask tools scan through for you. When done, the measurements will tell you how many have failed and the buffer navigator allows you to hide the good waveforms and just display the problem ones.

The screenshot here shows changing frequency versus time as a graph. Perhaps instead you want to plot changing duty cycle as a graph? How about outputting a waveform from the AWG and also automatically saving the waveform to disk when a trigger condition is met? With the power of PicoScope the possibilities are endless. To find out more about the capabilities of PicoScope software, visit our A to Z of PC Oscilloscopes.

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Fluke Ti401 Pro

sku Product SKU:  FLK-Ti401-Pro

Every day you work hard to get the job done. Fluke gets that. For over 70 years, we have worked with people in the industrial trades. We understand that you need thermal imagers that will get the job done; rugged general use, everyday thermal imagers that are easy to use, accurate and create high-quality images. The Fluke Ti401 PRO is exactly this type of camera. It is an ideal camera for certified or uncertified thermographers working in:

  • industrial maintenance
  • heavy commercial facility maintenance
  • commercial building diagnostics

The rugged tool you need to establish and maintain a preventive maintenance program.

  • Splash resistant
  • Dust resistant
  • 2-meter drop tested

Capture more than you’d expect, at a price you wouldn’t

Equipped with a unique combination of 640 x 480 resolution and field of view that offers the flexibility to capture measurements in tight spaces or from a distance, even the novice thermographer can capture images of critical issues before they become failures. This well-priced camera offers the highest resolution in its class along with the best-selling features from Fluke. With temperature measurements up to 650 °C, it is suitable for most industrial environments.

Get the most out of your Ti401 PRO with Fluke Connect™ desktop software. Create professional reports in minutes while efficiently capturing full radiometric data to support your maintenance program.

  • Edit and optimize images
  • Combine infrared and visible images for simpler analysis
  • Create detailed reports
  • Organize and search images by asset, severity, and title

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Fluke 753

sku Product SKU:  FLK-753

Product overview: Fluke 753 Documenting Process Calibrator

Fluke 753 Documenting Process Calibrator helps you work smarter and faster

The Fluke 753 is a powerful multifunction documenting calibrator that lets you download procedures, lists, and instructions created with software, and upload data for printing, archiving, and analysis. You'll find it does the work of several tools, with simultaneous source and measurement capabilities for all common process parameters. It sources, simulates, and measures pressure, temperature, and electrical signals in one rugged, hand-held calibration tool. It also automates calibration procedures, captures data for documentation, and helps you meet rigorous standards like ISO 9000, FDA, EPA, and OSHA regulations.

The 753 includes a USB interface and a USB communication cable to enable two-way communication with DPCTrack 2 and other instrumentation management applications. To create a seamless/paperless calibration management system consider adding Fluke DPCTrack2 Calibration Management software for use with your Fluke 753 and 754 or even legacy Fluke 743 and 744 calibrators.

Other useful features:

  • Measures and sources pressure using any of 50 Fluke 700Pxx Pressure Modules
  • Allows you to creates and run automated as-found/as-left procedures to satisfy quality programs or regulations, and record and document results
  • Holds up to a full week of downloaded procedures and calibration results
  • Offers many flexible features like autostep, custom units, user-entered values during test, one-point and two-point switch testing, square root DP flow testing, programmable measurement delay and more.
  • Offers compatibility with DPCTrack2 and many other asset management software packages
  • Bright white dual display for reading both sourced and measured parameters simultaneously
  • Easy-to-use multi-lingual interface
  • Gas gauge and rechargeable Li-Ion battery for 10 hour uninterrupted use
  • Comes with three-year warranty and DPC/Track trial software

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Fluke 1770 Series

sku Product SKU:  FLK-177x

Automatic measurements. More flexibility. Better power quality troubleshooting.

Fluke 1770 Series Three-Phase Power Quality Analyzers eliminate the complexities of power quality logging, troubleshooting, and analysis. Engineered to be the faster, easier way to perform power quality studies, the 1770 Series offers automatic measurements, a straightforward user interface and setup, best-in-class specifications, and a simplified reporting platform. The instrument can also be powered directly from the measurement circuit, eliminating the need to find a power outlet or use a lengthy extension cord

With the 1770 Series you’ll never miss a critical power quality event—from fast transients up to 8 kV, harmonics up to 30 kHz, dips and swells, as well as the voltage, current, and power measurements that enable you to characterize your electrical system.

Automatic measurement capture

Whether you’re performing a quick system check or a detailed power quality study, consistent data is key. The Fluke 1770 Series offers a unique automatic measurement capture system that helps ensure you’re collecting the right data every time, while still giving you the flexibility to select and adjust specific parameters as needed. More than 500 power quality parameters are captured by default and the guided setup makes it easy to select the right parameters for the system you’re working on. Logged data is instantly viewable, downloadable, and shareable with Fluke Energy Analyze Plus software so you never need to wait to finish a session before reviewing results or analyzing data.

Fluke 1770 Series Three-Phase Power Quality Analyzers Overview

Ultimate measurement confidence

The Fluke 1770 Series are 2-in-1 devices that combine the troubleshooting functionality of a power quality meter with the robust analysis and logging capabilities of a standalone power quality analyzer—in a single, easy-to-use, handheld device.

The ‘PQ Meter’ function gives you immediate access to live onscreen data in the field so you can quickly identify potential problems while troubleshooting. The detailed ‘PQ Logging and Analysis’ function eliminates the complexity of performing power quality studies by guiding you through the setup process ensuring you’re capturing the right data every time. Couple these measurement modes with a unique measurement connection autocorrect function and you can be confident that you never need to worry about going back for a second measurement—even if you were unsure about what to look for when you started.

Power Quality Logger

Powerful analysis software with easy-to-create reports

Fluke 1770 Series Power Quality Analyzers come standard with the powerful Fluke Energy Analyze Plus software, designed to eliminate the hassles found with other multi-purpose application software. Energy Analyze Plus helps you evaluate power quality data right out of the box and without extensive training.

Energy Analyze Plus makes downloading, analyzing, tracking, and reporting power quality and energy data easier than ever. Quickly compare results to historical values, benchmark against industry norms, compare measured data to local conditions, and create a more complete picture of what’s occurring across your facility, even as the data is still being collected. Energy Analyze Plus offers unified support for the Fluke 1730, 1740, and 1770 Series of Energy Loggers and Power Quality Analyzers.

  • “In-workshop” and “in-the-field” setup and download through PC application software
  • Simple data downloads using USB memory stick, WiFi, LTE, wired Ethernet, or USB cable
  • Analyze every measured detail of energy consumption and power quality state-of-health with automated reporting
  • One-touch reporting creates standardized reports conforming to standards like EN 50160, IEEE 519, GOST 33073 IEC 61000-2-2, or export data in PQDIF or NeQual compatible format or CSV for use with third-party software
  • Advanced analysis allows the user to choose any available logged parameter and create a highly customized view of measurements for advanced data correlation

Power Quality

High-speed voltage transient capture

Transients negatively impact otherwise healthy systems every day and their potential to damage your equipment can’t be underestimated. Whether your system is experiencing impulsive or oscillatory transients, the results can be devastating and cause problems ranging from insulation failures to total equipment failures. The Fluke 1775 and Fluke 1777 incorporate advanced transient capture technology to help you clearly identify high-speed voltage transients, so you have the data you need to stop them in their tracks. The Fluke 1775 Power Quality Analyzer has 1MHz sampling capability to capture fast transients, while the Fluke 1777 Power Quality Analyzer has 20MHz sampling capability to capture the fastest transients in high detail

Power Quality Logger Transient

From traditional industrial systems to renewable energy systems to electric vehicles, we’ve got you covered

The Fluke 1770 Series was designed to be safe and easy to use in any measurement environ¬ment. The 1770 Series allows you to capture a full range of power quality variables as well as high-speed waveforms, high-speed transients, and higher frequency harmonics, all of which are instantly viewable on the large, high-resolution screen. With a best-in-class CAT IV 600 V / CAT III 1000 V overvoltage rating, these analyzers can be used at the service entrance or downstream, measuring AC and DC inputs, and harmonics measuring up to 30 kHz. With the 1770 Series you can be confident that you’ll capture the data you need to make better maintenance decisions no matter the task.

Applications 1773 1775 1777
Energy surveys and load testing
Harmonic surveys
Nuisance circuit breaker tripping  
Power utility power quality surveys  
Discovery of equipment failures caused by transients  

Power Quality Logger

Compliant to international standards

The Fluke 1770 Series offers the best-in-class accuracy you’ve come to expect from a Fluke Power Quality Analyzer in a future IEC 61000-4-30 Class A edition 3 compliant package. On top of that, the 1770 Series has been engineered to meet the future requirements of Class A edition, for conformance to EN 50160 and IEEE 519, so you’ll be prepared to tackle tomorrow’s measurement requirements, today.

Fluke 1770 Series Three-Phase Power Quality Analyzers

Work where, when, and how you want

No two days in the field are the same. You need a power quality analyzer that can go where you go and do what you need it to when you get there. With a full range of accessories and built-in features the Fluke 1770 Series makes it easier to get your job done. The slim ergonomic design and integrated hand strap make it easy to hold and the included hanging kit makes it easy to secure your analyzer inside a cabinet. The integrated internal power supply allows the unit to be powered directly from the measured circuit, while a 90-minute battery helps ensure you can still access and review data even when you aren’t connected to a live system.

Quickly and easily transfer data to your PC using the USB C, USB A, Ethernet, Wi-Fi, cellular network support options, depending on your requirements. With an internal GPS module and an optional double insulated antenna extension cable, for amplifying GPS signals indoors, you can easily time sync your data for more accurate troubleshooting and analysis.

Calculate current harmonics limits

When downloading data from the Fluke 1770 Series Power Quality Analyzers the included Energy Analyze Plus software package can compare measured voltage and current harmonic statistical data to different standards, like EN 50160 or IEEE 519, to determine if they exceed compliance limits. This powerful predictive maintenance feature enables current harmonics to be observed before distortion appears in the voltage allowing you to prevent unexpected failures or non-compliance situations and increase system uptime. With the proliferation of inverter-based loads and power generation, keeping current harmonics in check is becoming increasingly critical to ensure reliable power quality and avoid system downtime.

Fluke 1770 Series Three-Phase Power Quality Analyzers

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