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Fluke 287/FVF FlukeView Forms Combo Kit

Model: 287/FVF | UPC: 095969469784

Fluke 287/FVF FlukeView Forms Combo Kit-


Downloads: datasheet manual

Fluke 287/FVF FlukeView Forms Combo Kit

Model: 287/FVF

Ideal for professionals involved in the R&D, maintenance, manufacture, and design of electronic circuits or systems. This multimeter tracks down elusive, intermittent problems or monitor equipment with any of its functions. Additionally, the accessories included in this kit enhance your documenting circuit design performance.

Ideal for professionals involved in the R&D, maintenance, manufacture, and design of electronic circuits or systems. This multimeter tracks down elusive, intermittent problems or monitor equipment with any of its functions. Additionally, the accessories included in this kit enhance your documenting circuit design performance.

Sale Price $656.99 USD
Regular Price $729.99 USD
Availability 1 to 2 Weeks
Quantity

Add In-House Traceable Calibration to your 287/FVF

Add In-House Traceable Calibration to your 287/FVF


Fluke 287/FVF Offers

Features

  • Compatible with Fluke Connect mobile app and all Fluke FC enabled test tools with optional IR3000 FC infrared connector (sold separately)
  • ShareLive™ video call (requires Fluke Connect mobile app and ir3000 FC wireless connector which is sold separately)
  • TrendCapture quickly graphically displays logged data session to quickly determine whether anomalies may have occurred
  • Zoom on trend provides unprecedented ability to view and analyze TrendCapture data; zoom in up to 14 times
  • Selectable AC filter (smoothing mode) helps display a steadier reading when the input signal is changing rapidly or noisy
  • Adjustable recording and auto hold thresholds, specify a percentage change in the readings that begins a new event
  • Large 50,000 count, ¼ VGA display with white backlight
  • Multiple sets of measurement information can be simultaneously displayed at the same time
  • Logging function with expanded memory for unattended monitoring of signals over time
  • Using on-board TrendCapture users can graphically review logged readings without needing a PC that stores up to 15,000 recorded events
  • On board help screens for measurement functions
  • Saved measurements allow you to name and recall measurements made in the field
  • Multi-lingual interface
  • Multiple logging sessions possible without download
  • 0.025% basic DC accuracy
  • 100 kHz AC bandwidth
  • Real time clock for automatic time stamping of saved readings
  • True RMS AC voltage and current for accurate measurements on complex signals or non-linear loads
  • AC bandwidth specified to 100 kHz
  • Measure up to 10 A (20 A for 30 seconds)
  • 100 mF capacitance range
  • Temperature function
  • Relative mode to remove test lead resistance from low ohms or capacitance measurements
  • Peak capture to record transients as fast as 250 µs
  • FlukeView forms enable you to document, store and analyze individual readings or a series of measurements, then convert them into professional-looking documents

Applications

  • R&D
  • Maintenance
  • Manufacture
  • Design of electronic circuits or systems

Fluke 287/FVF Specifications

DC Volts
Range/Resolution 50.000 mV, 500.00 mV, 5.0000 V, 50.000 V, 500.00 V, 1000.0 V
Basic Accuracy 0.025%
AC Volts
Range/Resolution 50.000 mV, 500.00 mV, 5.0000 V, 50.000 V, 500.00 V, 1000.0 V
Basic Accuracy 0.4% (True RMS)
DC Current
Range/Resolution 500.00 µA, 5000.0 µA, 50.000 mA, 400.00 mA, 5.0000 A, 10.000 A
Basic Accuracy 0.05%
AC Current
Range/Resolution 500.00 µA, 5000.0 µA, 50.000 mA, 400.00 mA, 5.0000 A, 10.000 A
Basic Accuracy 0.6% (True RMS)
Temperature (Excluding Probe)
Range/Resolution -328 to 2462°F (-200 to 1350°C)
Basic Accuracy 1.0%
Resistance
Range/Resolution 500.00 Ω, 5.0000 kΩ, 50.000 kΩ, 500.00 kΩ, 5.0000 MΩ, 50.00 MΩ, 500.0 MΩ
Basic Accuracy 0.05%
Capacitance
Range/Resolution 1.000 n, 10.00 nF, 100.0 nF, 1.000 µF, 10.00 µF, 100.0 µF, 1000 µF, 10.00 mF, 100 mF
Basic Accuracy 1.0%
Frequency
Range/Resolution 99.999 Hz, 999.99 Hz, 9.9999 kHz, 99.999 kHz, 999.99 kHz
Basic Accuracy 0.005%
General Specifications
Maximum Voltage Between any Terminal and Earth Ground 1000 V
Battery Type 6 x AA alkaline batteries, NEDA 15A IECLR6
Battery Life 100 hours minimum, 200 hours in logging mode
Operating Temperature -4 to 131°F (-20 to 55°C)
Storage Temperature -40 to 140°F (-40 to 60°C)
Relative Humidity 0 to 90% at 32 to 98.6°F (0 to 37°C)
0 to 65% at 98.6 to 113°F (37 to 45°C)
0 to 45% at 113 to 131°F (45 to 55°C)
Electromagnetic Compatibility EMC EN61326–1
Vibration Random vibration per MIL-PRF-28800F Class 2
Shock 1 meter drop per IEC/EN 61010–1 3rd Edition
Multiple on Screen Displays Yes
True RMS AC Bandwidth 100 kHz
dBV/dBm Yes
DC mV Resolution 1 µV
Megohm Range Up to 500 MΩ
Conductance 50.00 nS
Continuity Beeper Yes
Battery/Fuse Access Yes/Yes
Elapse Time Clock Yes
Time of Day Clock Yes
Min-max-avg Yes
Peak 250 µs
Duty Cycle 0.01 to 99.99%
Pulse Width 0.025 ms, 0.25 ms, 2.5 ms, 1250.0 ms
Hold Yes
Isolated Optical Interface Yes
Auto/Touch Hold Yes
Reading Memory Yes
Log to PC Yes
Interval/Event Logging Yes
Logging Memory Up to 10,000 readings
Dimensions 8.75 x 4.03 x 2.38" (22.2 x 10.2 x 6 cm)
Weight 1.9 lbs (870.9 g)
Click here for complete specifications on the Fluke 287/FVF

What's included with the Fluke 287/FVF

  • Multimeter
  • Thermocouple Probe
  • Test Leads
  • Test Probes
  • Alligator Clips
  • Amp Jack Plug Set
  • Magnetic Meter Hanger
  • Carrying Case
  • FlukeView Forms Software and Cable
  • Limited Lifetime Warranty
This product features Fluke Connect Technology

See it. Save it. Share it. All the facts, right in the field.

Fluke engineers have delivered an innovative mobile platform and tool that helps solve everyday problems, allowing you to instantly document measurements, retrieve historical data, and share live measurements with your team. All handled by the Android™ or iOS smart phone you already carry.

Fluke Connect with ShareLive™ video call is the only wireless measurement system that lets you stay in contact with your entire team without leaving the field. The Fluke Connect mobile app is works with over 20 different Fluke products - the largest suite of connected test tools in the world.

Make the best decisions faster than ever before by viewing temperature, mechanical, electrical and vibration measurements for each equipment asset in one place. Get started saving time and increasing your productivity.


Fluke Connect Features:

  • TrendIt™ Graphs: Use graphing to show changes in measurements, allowing you to graph and show problems instantly.
  • EquipmentLog™ History: Access equipment history building a database of equipment health and baselines with cloud backup.
  • ShareLive™ Video Calls: Save, collaborate and share measurements instantly with your team anytime, from anywhere.
  • AutoRecord™ Measurements: Instantly save measurements to your phone with Cloud backup.
  • Fluke Cloud™ Storage: Securely access equipment records anywhere, anytime.

Fluke Connect Benefits:

  • Maximize uptime
  • Minimize maintenance costs
  • Better assessments with accurate records
  • Higher efficiency with less walking around; no notebook and excel needed
  • Share troubleshooting knowledge live
  • Create and share helpful content in the field
  • Access to Fluke digital product manuals means no need to carry manuals in the field
  • Keep organized manually entered measurements

Fluke 289 True RMS Industrial Data Logging Multimeter: Overview


This video gives an overview of the Fluke 289 & 287's features like bright backlight for increased visibility, a simple interface and on-board help.

How To Use the Data Logging Feature on the Fluke 289 True RMS Industrial Data Logging Multimeter


This video demonstrates how to use the data logging feature on the Fluke 289. This function allows the user to record the data that they need while they're busy doing another task. Setting up a data logging session only takes a few steps!

How To Use the Min/Max/Avg Feature on the Fluke 289 True RMS Industrial Data Logging Multimeter


This video demonstrates how to use the Min/Max/Avg feature on the Fluke 289 & 287. This function allows the user to capture these input values in order to evaluate a wide range of signal anomalies.

Fluke 289 True RMS Industrial Data Logging Multimeter with TrendCapture


This video gives an overview of the TrendCapture function on the Fluke 280 Series. The feature allows the user to not have to upload their data computer to view them. Users can graphically view information directly on the meter.

Multimeter measurements on adjustable speed drives

In the past, motor repair meant dealing with traditional three-phase motor failures that were largely the result of water, dust, grease, failed bearings, misaligned motor shafts, or just plain old age. But motor repair has changed in a big way with the introduction of electronically controlled motors, more commonly referred to as adjustable speed drives (ASDs). These drives present a unique set of measurement problems that can vex the most seasoned pro. Thanks to new technology, now for the first time you can take accurate electrical measurements with a DMM during the installation and maintenance of a drive and diagnose bad components and other conditions that may lead to premature failure.

Troubleshooting philosophy

Technicians use many different methods to troubleshoot an electrical circuit, and a good troubleshooter will always find the problem - eventually. The trick is tracking it down quickly and keeping downtime to a minimum. The most efficient troubleshooting procedure begins at the motor and then works systematically back to the electrical source, looking for the most obvious problems first. A lot of time and money can be wasted replacing perfectly good parts when the problem is simply a loose connection. As you go, take care to take accurate measurements. Nobody takes inaccurate measurements on purpose, but it's easy to do, especially when working in a high energy, noisy environment like an ASD. Likewise, choosing the right test tools for troubleshooting the drive, the motor, and the connections is of utmost importance. This is especially true when taking voltage, frequency and current measurements on the output side of the motor drive. But until now, there hasn't been a digital multimeter on the market able to accurately measure ASDs. Incorporates a selectable low pass filter* that allows for accurate drive output measurements that agree with the motor drive controller display indicator. Now, technicians won't have to guess whether the drive is operating correctly and delivering the correct voltage, current or frequency for a given control setting.

Drive measurements

Input side measurements

Any good quality True RMS multimeter can verify proper input power to an ASD. The input voltage readings should be within 1% of one another when measured phase to phase with no load. A significant unbalance may lead to erratic drive operation and should be corrected when discovered.

Output side measurements

On the flip side, a regular True RMS multimeter can't reliably read the output side of a pulse width modulated (pwm) motor drive, because the ASD applies pulse width modulated nonsinusoidal voltage to the motor terminals. A True RMS DMM reads the heating effect of the non-sinusoidal voltage applied to the motor, while the motor controller's output voltage reading only displays the rms value of the fundamental component (typically from 30 Hz to 60 Hz). The causes of this discrepancy are bandwidth and shielding. Many of today's True RMS digital multimeters have bandwidths out to 20 kHz or more, causing them to respond not only to the fundamental component, which is what the motor really responds to, but to all of the high frequency components generated by the pwm drive. And if the DMM isn't shielded for high frequency noise, the drive controller's high noise levels make the measurement discrepancies even more extreme. With the bandwidth and shielding issues combined, many True RMS meters display readings as much as 20 to 30% higher than what the drive controller is indicating. With the incorporated selectable low pass filter, allows troubleshooters to take accurate voltage, current and frequency measurements on the output side of the drive at either the drive itself or the motor terminals. With the filter selected, the readings for both voltage and frequency (motor speed) should agree with the associated drive control display indications, if available. The low pass filter also allows for accurate current measurements when used with Hall-effect type clamps. All of these measurements are especially helpful when taking measurements at the motor location when the drive's displays are not in view.

Taking safe measurements

Before taking any electrical measurements, be sure you understand how to take them safely. No test instrument is completely safe if used improperly, and many test instruments are not appropriate for testing adjustable speed drives. Also make sure to use the appropriate personal protective equipment (PPE) for your specific working environment and measurements. If at all possible, never work alone.

Safety ratings for electrical test equipment

ANSI and the International Electrotechnical Commission (IEC) are the primary independent organizations that define safety standards for test equipment manufacturers. The IEC 61010 second edition standard for test equipment safety states two basic parameters: a voltage rating and a measurement category rating. The voltage rating is the maximum continuous working voltage the instrument is capable of measuring. The category ratings depict the measurement environment expected for a given category. Most three-phase ASD installations would be considered a CAT III measurement environment, with power supplied from either 480V or 600V distribution systems. When using a DMM for measurements on these high energy systems, make sure it's rated at a minimum for CAT III 600V and preferably for CAT IV 600V/CAT III 1000V. The category rating and voltage limit are typically found on the front panel, at the input terminals. Dual-rated CAT IV 600V and CAT III 1000V. Refer to the ABC's of DMM Safety* from Fluke for additional information on category ratings and taking safe measurements.

How to take measurements

Now let's put the multimeter to the test. The measurements in the following procedure are designed to be made on a 480 volt 3 phase drive control at the control panel terminal strips. These procedures would also be valid for lower voltage 3 phase drives powered by either single or 3 phase supply voltages. For these tests the motor is running at 50 Hz.

Input voltage

To measure the ac voltage supply to the input side of the drive at the drive:

  • Select the ac voltage function.
  • Connect the black probe to one of the three phase input terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase input terminals and record the reading.
  • Leaving the black probe on the reference phase now move the red probe to the third phase input and record this reading.
  • Make sure there's no more than a 1% difference between these two readings.

Input current

Measuring the input current generally requires a current clamp accessory. In most cases, either the input current exceeds the maximum current measurable by the current function, or it isn't practical to "break the circuit" to take an in-line series current measurement. Regardless of clamp type, insure that all readings are within 10% of each other for proper balance.

Transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A AC function.
  • Place the clamp around each of the input supply phase cables in succession, recording each of the readings as they are taken. Since these clamps output one milliamp per amp, the milliamp readings shown on the display are the actual phase current readings in amps.

Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the AC voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter is enabled, the meter will be in the 600 mV manual range mode.
  • Place the clamp around each of the input supply phase cables in succession, recording each of the readings as they are taken. Since these clamps output one millivolt per amp, the millivolt readings shown on the display are the actual phase current readings in amps.

Figure 1. Output voltage reading without using the low pass filter.


Figure 2. Output voltage reading with low pass filter enabled.

Output voltage

To measure the AC output voltage at either the drive or the motor terminals:

  • Plug the black test lead into the common jack and the red test lead into the V/W jack.
  • Select the AC voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the yellow button to enable the low pass filter. Now record the reading.
  • Leaving the black probe on the reference phase, now move the red probe to the third phase output voltage or motor terminal and record this reading.
  • Make sure that there's no more than a 1% difference between these two readings (see Figure 2). The readings should also agree with the controller display, panel if available.
  • If the low pass filter isn't enabled, the output voltage readings may be 10 to 30% higher, as on a regular DMM (see Figure 1).

Figure 3. Output frequency (motor speed) without the low pass filter.


Figure 4. Output frequency (motor speed) using the low pass filter.

Motor speed (Output frequency using voltage as a reference)

To determine motor speed, simply take a frequency measurement while using the low pass filter. The measurement can be made between any two of the phase voltage or motor terminals.

  • Plug the black test lead into the common jack and the red test lead into the V/W jack.
  • Select the ac voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the yellow button to enable the low pass filter.
  • Press the Hz button. The displayed reading in hertz will be the motor speed (see Figure 3). This measurement couldn't be made successfully without the low pass filter (see Figure 4).

Output current

TAs with input current, measuring the output current generally requires a current clamp accessory. Once again, regardless of clamp type, insure that all readings are within 10% of each other for proper balance.

Transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A ac function.
  • Place the clamp around each of the output phase cables in succession, recording each of the readings as they're taken. Since these clamps output 1 milliamp per amp, the milliamp readings shown on the display are the actual phase current readings in amps.

Figure 5. Output current reading without using the low pass filter.


Figure 6. Output current reading with low pass filter enabled.

Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the ac voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter is turned on, the meter will be in the 600 mV manual range mode.
  • Place the clamp around each of the output phase cables in succession, recording each of the readings as they are taken (see Figure 6). Since these clamps output 1 millivolt per amp, the millivolt readings shown on the 87-V display are the actual phase current readings in amps. This measurement would not be possible without the low pass filter (see Figure 5).

Motor speed (Output frequency using current as a reference)

For motors that pull at least 20 amps of running current, motor speed can be determined by taking a frequency measurement with current clamps. Until now, noise issues have prevented accurate readings using hall effect type clamps. Here's how the low pass filter makes it possible.

Motor speed using a Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the ac voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter has been turned on, the meter will be in the 600 mV manual range mode.
  • Place the clamp around one of the output phase cables. Verify that the multimeter is reading a current of at least 20 amps (20 mV in the display).
  • Press the Hz button. The readings now display the motor speed as a frequency measurement.

Motor speed using a transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A AC function.
  • Place the clamp around one of the output phase cables. Verify that the multimeter is reading a current of at least 20 amps (20mA in the display).
  • Press the Hz button. The readings now display the motor speed as a frequency measurement.

DC Bus measurements

A healthy dc bus is a must for a properly operating motor drive. If the bus voltage is incorrect or unstable, the converter diodes or capacitors may be starting to fail. The DC bus voltage should be approximately 1.414 times the phase to phase input voltage. For a 480 volt input, the DC bus should be approximately 679 VDC. The DC bus is typically labeled as DC+, DC- or B+, Bon the drive terminal strip. To measure the DC bus voltage:

  • Select the dc voltage function.
  • Connect the black probe to either the DC- or B- terminal.
  • Connect the red probe to the DC+ or B+ terminal. The bus voltage should agree with the example mentioned above and be relatively stable. To check the amount of ac ripple on the bus, switch the 7V's function switch to the vac function. Some small drives don't allow external access to the DC bus measurement without disassembling the drive. If you can't access the DC bus, use the peak min max function on the multimeter to measure the dc bus voltage via the output voltage signal.
  • Plug the black test lead into the common jack and the red test lead into the V/½ jack.
  • Select the AC voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the MIN MAX button.
  • Press the (Peak min max) button.
  • The displayed reading in Peak min max will be the DC bus voltage.

Click on a category to view a selection of compatible accessories with the Fluke 287/FVF FlukeView Forms Combo Kit.

Fluke TL175 TwistGuard Test Leads Set TL175
By simply twisting the test lead the user can change the exposed probe tip length from 19 mm to 4 mm (0.75 inch to 0.16 inch).




Fluke TL910 Electronic Test Probe Set TL910
One pair (red, black) of leads with very small tips to access hard to reach electronic test points.




Fluke TL81A Deluxe Electronic Test Lead Set TL81A
Works with Digital Multimeters that accept safety shrouded, standard diameter, banana connectors. Includes a quad-fold nylon pouch.




Fluke TL80A Basic Electronic Test Lead Set TL80A
1 meter long silicone test lead set, alligator clip and probe tip extender in a soft carrying case.




Fluke TL76 Test Lead Set TL76
Pair of red, black silicone test leads with right angle shrouded 0.16" (4 mm) banana plugs.




Fluke TL75 Hard Point™ Test Lead Set TL75
Offers the convenience of a test lead and probe-in-one unit with a variety of connections. One pair (red, black) comfort grip probe with PVC insulated right angel shrouded 0.16" (4 mm) banana plugs.




Fluke TL71 Premium Right Angle Test Lead Set TL71
Comfort grip probes with flexible silicone-insulated, right-angle test leads. They are heat and cold resistant, with a safety rating of CAT II 1000 V, 10 A.




Fluke TL40 Retractable Tip Test Lead Set TL40
Adjustable to desired length from 0 to 76mm.




Fluke TL224 SureGrip™ Silicone Insulated Test Leads TL224
These insulated test leads provide the convenience and variety for test lead configurations by attaching clips, hooks and grabbers as needed.




Fluke TL223 SureGrip™ Electrical Test Lead Set TL223
Designed for your comfort so you can focus on taking accurate measurements, this handy all-in-one kit comes equipped with a SureGrip alligator clip set, slim-reach test probes (flat bladed), and SureGrip silicone test lead set.




Fluke TL970 Hook and Pincer Kit TL970
Kit includes TL940 Mini-Hook Test Lead Set, TL950 Mini-Pincer Test Lead Set, and TL960 Micro-Hook Test Lead Set.




Fluke TP2 Slim Reach Test Probe Set TP2
Ideal for probing closely spaced or recessed terminals, this slim reach test probe set also features hard stainless steel probe tips.




Fluke TP220 SureGrip™ Industrial Test Probes TP220
For use with the TL222 and TL224. Additionally, these industrial test probes feature 0.5" (12 mm) stainless steel tips that provide reliable contact and flexible finger barrier, which improves grip.












Fluke TP4 Slim Reach Test Probe Set TP4
Features hard stainless steel probe tips, this slim reach test probes set is designed to fit securely into IEC electrical wall outlets.




Fluke TP38 Slim Reach Test Probe Set TP38
Comes with hard stainless steel probe tips, this slim reach test probes set comes in one pair of slender probe bodies that for probing closely spaced or recessed terminals. Additionally, they feature an insulated probe tip.




Fluke TL221 SureGrip™ Test Lead Extension Set TL221
Features over molded surfaces and finger-hugging curves for a more comfortable and reliable grip, this test lead extension set is designed to improve steadiness in slippery hands.




Fluke pc3000 FC Adapter and Software PC3000-FC
This USB adapter and software allows your PC or laptop to communicate with up to 10 Fluke Connect wireless devices.




Fluke ir3000 FC Connector FLK-IR3000FC
Connect your Fluke test tool with the ir3000 FC connector and get all the benefits of the Fluke Connect™ app.




Fluke C280 Polyester Soft Carrying Case C280
Compatible with Fluke 287 and 289 DMMs or other similar format test tools





Fluke TPAK ToolPak Magnetic Meter Hanger ToolPak
Hang your meter in a variety of ways for convenient hands-free operation. Attaches to most Fluke meters.




Fluke C550 Premium Tool Bag C550
Tool Bag with steel reinforced frame.




Fluke C25 Large Soft Carrying Case for Digital Multimeters C25
Featuring a durable, zippered carrying case with padding and inside pocket, and high quality polyester exterior. It includes a convenient hand strap and carries most of Fluke's popular digital multimeters.




Fluke C100 Hard Sided Carrying Case C100
Carrying Case for all handheld multimeters.




Fluke i400 AC Current Clamp, 400 A AC I400
For use with digital multimeters, this current clamp allows users to take accurate current measurements without breaking electric circuits. Additionally, it measures up to 400 A AC.




Fluke i410 AC/DC Current Clamp I410
The current clamp expands the functionality of digital multimeters and measures up to 400 amps for both AC and DC currents. The large clamp claw gives you access to difficult to reach areas.




Fluke 80PK-9 General Purpose Probe 80PK-9
Featuring a general purpose type-K thermocouple probe for surface, air and non-caustic gases. It has a measuring range of -40 to 260°C.




Fluke i2000 FLEX Flexible AC Current Clamp I2000-FLEX
Utilizing the Rogowski principle, the clamp can be used to measure currents up to 2000 A when used in conjunction with multimeters, recorders, or data loggers. The flexible and lightweight measuring head allows quick and easy installation in hard to reach areas.




Fluke i1010 AC/DC Current Clamp I1010
Highly reliable, measures 1 to 1000 A, and provides accurate current reading without breaking the circuit. This clamp measures both AC and DC with a large jaw, battery-powered Hall-effect probe that gives access to difficult to reach areas.




Fluke 80PK-8 Pipe Clamp Temperature Probe 80PK-8
Uses Type-K thermocouple for fast temperature and superheat measurements of pipe surfaces. Designed to reliably measure the temperature of pipes ¼" (6 mm) to 1⅜" (35 mm) in diameter, at temperatures between -20 and 300°F (-29 and 149°C), while retaining a long service life.




Fluke 80PK-3A Surface Temperature Probe 80PK-3A
Compatible with any temperature measuring instrument that accepts type K thermocouples and features a miniature connector input. Additionally, this surface temperature probe is ideal for measuring the temperature of flat or slightly convex surfaces, with an exposed junction to allow direct contact with the surface being measured.




Fluke 80PK-27 SureGrip™ Industrial Surface Temperature Probe 80PK-27
Compatible with any temperature measuring instrument that accepts type K thermocouples features a miniature connector input and a cold reference junction compensation. Additionally, this industrial surface temperature probe is ideal for surfaces in rugged environments.




Fluke 80PK-26 SureGrip Tapered Temperature Probe 80PK-26
Features a tapered tip, making this tapered temperature probe ideal for use in air, non-caustic gas, and surface applications.




Fluke 80PK-25 SureGrip™ Piercing Temperature Probe 80PK-25
A K type thermocouple probe that is suitable for the food industry, liquids, and gel.




Fluke 80PK-24 SureGrip™ Air Temperature Probe 80PK-24
A K type thermocouple probe ideal for use in air and non-caustic gas measurements. Additionally, this air temperature probe features a bead protected by perforated baffle.




Fluke 80PK-22 SureGrip™ Immersion Temperature Probe 80PK-22
Compatible with any temperature measuring instrument that accepts K type thermocouples and features a miniature connector input. Additionally, this immersion temperature probe is for use in liquid and gels, and can also be used as a general-purpose probe.




Fluke 80TK Thermocouple Module 80TK
Thermocouple converter that accepts the output of any K-type thermocouple and converts it to 1 mV per degree (Celsius or Fahrenheit).




Fluke 80K-6 KV High Voltage Probe 80K-6
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 6000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke 80K-40 High Voltage Probe 80K-40
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 40,000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke 80K-15 High Voltage Probe 80K-15
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 15,000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke AC220 SureGrip™ Alligator Clips AC220
Designed to improve steadiness with rubber overmolded surfaces and finger-hugging curves. For use with TL222 and TL224 test leads.




Fluke AC280 SureGrip™ Hook Clips AC280
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke AC285 SureGrip™ Alligator Clips AC285
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke AC283A SureGrip™ Pincer Clips AC283A
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke FlukeView Forms Software with cable (FVF-SC2) FVF-SC2
For use with the Fluke 180 Series, 789, 1550B, 1550C, 1555, 53-2-B, 54-2-B and 1653.




Fluke AC89 Heavy Duty Insulation Piercing Test Clip AC89
Single probe pierces 0.01 to 0.6" (0.25 to 1.5 mm) insulated wire with a small pin allows self-healing of the insulation, and 1000 V, 10 A maximum.




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Fluke 287/FVF Offers

Features

  • Compatible with Fluke Connect mobile app and all Fluke FC enabled test tools with optional IR3000 FC infrared connector (sold separately)
  • ShareLive™ video call (requires Fluke Connect mobile app and ir3000 FC wireless connector which is sold separately)
  • TrendCapture quickly graphically displays logged data session to quickly determine whether anomalies may have occurred
  • Zoom on trend provides unprecedented ability to view and analyze TrendCapture data; zoom in up to 14 times
  • Selectable AC filter (smoothing mode) helps display a steadier reading when the input signal is changing rapidly or noisy
  • Adjustable recording and auto hold thresholds, specify a percentage change in the readings that begins a new event
  • Large 50,000 count, ¼ VGA display with white backlight
  • Multiple sets of measurement information can be simultaneously displayed at the same time
  • Logging function with expanded memory for unattended monitoring of signals over time
  • Using on-board TrendCapture users can graphically review logged readings without needing a PC that stores up to 15,000 recorded events
  • On board help screens for measurement functions
  • Saved measurements allow you to name and recall measurements made in the field
  • Multi-lingual interface
  • Multiple logging sessions possible without download
  • 0.025% basic DC accuracy
  • 100 kHz AC bandwidth
  • Real time clock for automatic time stamping of saved readings
  • True RMS AC voltage and current for accurate measurements on complex signals or non-linear loads
  • AC bandwidth specified to 100 kHz
  • Measure up to 10 A (20 A for 30 seconds)
  • 100 mF capacitance range
  • Temperature function
  • Relative mode to remove test lead resistance from low ohms or capacitance measurements
  • Peak capture to record transients as fast as 250 µs
  • FlukeView forms enable you to document, store and analyze individual readings or a series of measurements, then convert them into professional-looking documents

Applications

  • R&D
  • Maintenance
  • Manufacture
  • Design of electronic circuits or systems

Fluke 287/FVF Specifications

DC Volts
Range/Resolution 50.000 mV, 500.00 mV, 5.0000 V, 50.000 V, 500.00 V, 1000.0 V
Basic Accuracy 0.025%
AC Volts
Range/Resolution 50.000 mV, 500.00 mV, 5.0000 V, 50.000 V, 500.00 V, 1000.0 V
Basic Accuracy 0.4% (True RMS)
DC Current
Range/Resolution 500.00 µA, 5000.0 µA, 50.000 mA, 400.00 mA, 5.0000 A, 10.000 A
Basic Accuracy 0.05%
AC Current
Range/Resolution 500.00 µA, 5000.0 µA, 50.000 mA, 400.00 mA, 5.0000 A, 10.000 A
Basic Accuracy 0.6% (True RMS)
Temperature (Excluding Probe)
Range/Resolution -328 to 2462°F (-200 to 1350°C)
Basic Accuracy 1.0%
Resistance
Range/Resolution 500.00 Ω, 5.0000 kΩ, 50.000 kΩ, 500.00 kΩ, 5.0000 MΩ, 50.00 MΩ, 500.0 MΩ
Basic Accuracy 0.05%
Capacitance
Range/Resolution 1.000 n, 10.00 nF, 100.0 nF, 1.000 µF, 10.00 µF, 100.0 µF, 1000 µF, 10.00 mF, 100 mF
Basic Accuracy 1.0%
Frequency
Range/Resolution 99.999 Hz, 999.99 Hz, 9.9999 kHz, 99.999 kHz, 999.99 kHz
Basic Accuracy 0.005%
General Specifications
Maximum Voltage Between any Terminal and Earth Ground 1000 V
Battery Type 6 x AA alkaline batteries, NEDA 15A IECLR6
Battery Life 100 hours minimum, 200 hours in logging mode
Operating Temperature -4 to 131°F (-20 to 55°C)
Storage Temperature -40 to 140°F (-40 to 60°C)
Relative Humidity 0 to 90% at 32 to 98.6°F (0 to 37°C)
0 to 65% at 98.6 to 113°F (37 to 45°C)
0 to 45% at 113 to 131°F (45 to 55°C)
Electromagnetic Compatibility EMC EN61326–1
Vibration Random vibration per MIL-PRF-28800F Class 2
Shock 1 meter drop per IEC/EN 61010–1 3rd Edition
Multiple on Screen Displays Yes
True RMS AC Bandwidth 100 kHz
dBV/dBm Yes
DC mV Resolution 1 µV
Megohm Range Up to 500 MΩ
Conductance 50.00 nS
Continuity Beeper Yes
Battery/Fuse Access Yes/Yes
Elapse Time Clock Yes
Time of Day Clock Yes
Min-max-avg Yes
Peak 250 µs
Duty Cycle 0.01 to 99.99%
Pulse Width 0.025 ms, 0.25 ms, 2.5 ms, 1250.0 ms
Hold Yes
Isolated Optical Interface Yes
Auto/Touch Hold Yes
Reading Memory Yes
Log to PC Yes
Interval/Event Logging Yes
Logging Memory Up to 10,000 readings
Dimensions 8.75 x 4.03 x 2.38" (22.2 x 10.2 x 6 cm)
Weight 1.9 lbs (870.9 g)
Click here for complete specifications on the Fluke 287/FVF

What's included with the Fluke 287/FVF

  • Multimeter
  • Thermocouple Probe
  • Test Leads
  • Test Probes
  • Alligator Clips
  • Amp Jack Plug Set
  • Magnetic Meter Hanger
  • Carrying Case
  • FlukeView Forms Software and Cable
  • Limited Lifetime Warranty
This product features Fluke Connect Technology

See it. Save it. Share it. All the facts, right in the field.

Fluke engineers have delivered an innovative mobile platform and tool that helps solve everyday problems, allowing you to instantly document measurements, retrieve historical data, and share live measurements with your team. All handled by the Android™ or iOS smart phone you already carry.

Fluke Connect with ShareLive™ video call is the only wireless measurement system that lets you stay in contact with your entire team without leaving the field. The Fluke Connect mobile app is works with over 20 different Fluke products - the largest suite of connected test tools in the world.

Make the best decisions faster than ever before by viewing temperature, mechanical, electrical and vibration measurements for each equipment asset in one place. Get started saving time and increasing your productivity.


Fluke Connect Features:

  • TrendIt™ Graphs: Use graphing to show changes in measurements, allowing you to graph and show problems instantly.
  • EquipmentLog™ History: Access equipment history building a database of equipment health and baselines with cloud backup.
  • ShareLive™ Video Calls: Save, collaborate and share measurements instantly with your team anytime, from anywhere.
  • AutoRecord™ Measurements: Instantly save measurements to your phone with Cloud backup.
  • Fluke Cloud™ Storage: Securely access equipment records anywhere, anytime.

Fluke Connect Benefits:

  • Maximize uptime
  • Minimize maintenance costs
  • Better assessments with accurate records
  • Higher efficiency with less walking around; no notebook and excel needed
  • Share troubleshooting knowledge live
  • Create and share helpful content in the field
  • Access to Fluke digital product manuals means no need to carry manuals in the field
  • Keep organized manually entered measurements

Fluke 289 True RMS Industrial Data Logging Multimeter: Overview


This video gives an overview of the Fluke 289 & 287's features like bright backlight for increased visibility, a simple interface and on-board help.

How To Use the Data Logging Feature on the Fluke 289 True RMS Industrial Data Logging Multimeter


This video demonstrates how to use the data logging feature on the Fluke 289. This function allows the user to record the data that they need while they're busy doing another task. Setting up a data logging session only takes a few steps!

How To Use the Min/Max/Avg Feature on the Fluke 289 True RMS Industrial Data Logging Multimeter


This video demonstrates how to use the Min/Max/Avg feature on the Fluke 289 & 287. This function allows the user to capture these input values in order to evaluate a wide range of signal anomalies.

Fluke 289 True RMS Industrial Data Logging Multimeter with TrendCapture


This video gives an overview of the TrendCapture function on the Fluke 280 Series. The feature allows the user to not have to upload their data computer to view them. Users can graphically view information directly on the meter.

Multimeter measurements on adjustable speed drives

In the past, motor repair meant dealing with traditional three-phase motor failures that were largely the result of water, dust, grease, failed bearings, misaligned motor shafts, or just plain old age. But motor repair has changed in a big way with the introduction of electronically controlled motors, more commonly referred to as adjustable speed drives (ASDs). These drives present a unique set of measurement problems that can vex the most seasoned pro. Thanks to new technology, now for the first time you can take accurate electrical measurements with a DMM during the installation and maintenance of a drive and diagnose bad components and other conditions that may lead to premature failure.

Troubleshooting philosophy

Technicians use many different methods to troubleshoot an electrical circuit, and a good troubleshooter will always find the problem - eventually. The trick is tracking it down quickly and keeping downtime to a minimum. The most efficient troubleshooting procedure begins at the motor and then works systematically back to the electrical source, looking for the most obvious problems first. A lot of time and money can be wasted replacing perfectly good parts when the problem is simply a loose connection. As you go, take care to take accurate measurements. Nobody takes inaccurate measurements on purpose, but it's easy to do, especially when working in a high energy, noisy environment like an ASD. Likewise, choosing the right test tools for troubleshooting the drive, the motor, and the connections is of utmost importance. This is especially true when taking voltage, frequency and current measurements on the output side of the motor drive. But until now, there hasn't been a digital multimeter on the market able to accurately measure ASDs. Incorporates a selectable low pass filter* that allows for accurate drive output measurements that agree with the motor drive controller display indicator. Now, technicians won't have to guess whether the drive is operating correctly and delivering the correct voltage, current or frequency for a given control setting.

Drive measurements

Input side measurements

Any good quality True RMS multimeter can verify proper input power to an ASD. The input voltage readings should be within 1% of one another when measured phase to phase with no load. A significant unbalance may lead to erratic drive operation and should be corrected when discovered.

Output side measurements

On the flip side, a regular True RMS multimeter can't reliably read the output side of a pulse width modulated (pwm) motor drive, because the ASD applies pulse width modulated nonsinusoidal voltage to the motor terminals. A True RMS DMM reads the heating effect of the non-sinusoidal voltage applied to the motor, while the motor controller's output voltage reading only displays the rms value of the fundamental component (typically from 30 Hz to 60 Hz). The causes of this discrepancy are bandwidth and shielding. Many of today's True RMS digital multimeters have bandwidths out to 20 kHz or more, causing them to respond not only to the fundamental component, which is what the motor really responds to, but to all of the high frequency components generated by the pwm drive. And if the DMM isn't shielded for high frequency noise, the drive controller's high noise levels make the measurement discrepancies even more extreme. With the bandwidth and shielding issues combined, many True RMS meters display readings as much as 20 to 30% higher than what the drive controller is indicating. With the incorporated selectable low pass filter, allows troubleshooters to take accurate voltage, current and frequency measurements on the output side of the drive at either the drive itself or the motor terminals. With the filter selected, the readings for both voltage and frequency (motor speed) should agree with the associated drive control display indications, if available. The low pass filter also allows for accurate current measurements when used with Hall-effect type clamps. All of these measurements are especially helpful when taking measurements at the motor location when the drive's displays are not in view.

Taking safe measurements

Before taking any electrical measurements, be sure you understand how to take them safely. No test instrument is completely safe if used improperly, and many test instruments are not appropriate for testing adjustable speed drives. Also make sure to use the appropriate personal protective equipment (PPE) for your specific working environment and measurements. If at all possible, never work alone.

Safety ratings for electrical test equipment

ANSI and the International Electrotechnical Commission (IEC) are the primary independent organizations that define safety standards for test equipment manufacturers. The IEC 61010 second edition standard for test equipment safety states two basic parameters: a voltage rating and a measurement category rating. The voltage rating is the maximum continuous working voltage the instrument is capable of measuring. The category ratings depict the measurement environment expected for a given category. Most three-phase ASD installations would be considered a CAT III measurement environment, with power supplied from either 480V or 600V distribution systems. When using a DMM for measurements on these high energy systems, make sure it's rated at a minimum for CAT III 600V and preferably for CAT IV 600V/CAT III 1000V. The category rating and voltage limit are typically found on the front panel, at the input terminals. Dual-rated CAT IV 600V and CAT III 1000V. Refer to the ABC's of DMM Safety* from Fluke for additional information on category ratings and taking safe measurements.

How to take measurements

Now let's put the multimeter to the test. The measurements in the following procedure are designed to be made on a 480 volt 3 phase drive control at the control panel terminal strips. These procedures would also be valid for lower voltage 3 phase drives powered by either single or 3 phase supply voltages. For these tests the motor is running at 50 Hz.

Input voltage

To measure the ac voltage supply to the input side of the drive at the drive:

  • Select the ac voltage function.
  • Connect the black probe to one of the three phase input terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase input terminals and record the reading.
  • Leaving the black probe on the reference phase now move the red probe to the third phase input and record this reading.
  • Make sure there's no more than a 1% difference between these two readings.

Input current

Measuring the input current generally requires a current clamp accessory. In most cases, either the input current exceeds the maximum current measurable by the current function, or it isn't practical to "break the circuit" to take an in-line series current measurement. Regardless of clamp type, insure that all readings are within 10% of each other for proper balance.

Transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A AC function.
  • Place the clamp around each of the input supply phase cables in succession, recording each of the readings as they are taken. Since these clamps output one milliamp per amp, the milliamp readings shown on the display are the actual phase current readings in amps.

Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the AC voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter is enabled, the meter will be in the 600 mV manual range mode.
  • Place the clamp around each of the input supply phase cables in succession, recording each of the readings as they are taken. Since these clamps output one millivolt per amp, the millivolt readings shown on the display are the actual phase current readings in amps.

Figure 1. Output voltage reading without using the low pass filter.


Figure 2. Output voltage reading with low pass filter enabled.

Output voltage

To measure the AC output voltage at either the drive or the motor terminals:

  • Plug the black test lead into the common jack and the red test lead into the V/W jack.
  • Select the AC voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the yellow button to enable the low pass filter. Now record the reading.
  • Leaving the black probe on the reference phase, now move the red probe to the third phase output voltage or motor terminal and record this reading.
  • Make sure that there's no more than a 1% difference between these two readings (see Figure 2). The readings should also agree with the controller display, panel if available.
  • If the low pass filter isn't enabled, the output voltage readings may be 10 to 30% higher, as on a regular DMM (see Figure 1).

Figure 3. Output frequency (motor speed) without the low pass filter.


Figure 4. Output frequency (motor speed) using the low pass filter.

Motor speed (Output frequency using voltage as a reference)

To determine motor speed, simply take a frequency measurement while using the low pass filter. The measurement can be made between any two of the phase voltage or motor terminals.

  • Plug the black test lead into the common jack and the red test lead into the V/W jack.
  • Select the ac voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the yellow button to enable the low pass filter.
  • Press the Hz button. The displayed reading in hertz will be the motor speed (see Figure 3). This measurement couldn't be made successfully without the low pass filter (see Figure 4).

Output current

TAs with input current, measuring the output current generally requires a current clamp accessory. Once again, regardless of clamp type, insure that all readings are within 10% of each other for proper balance.

Transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A ac function.
  • Place the clamp around each of the output phase cables in succession, recording each of the readings as they're taken. Since these clamps output 1 milliamp per amp, the milliamp readings shown on the display are the actual phase current readings in amps.

Figure 5. Output current reading without using the low pass filter.


Figure 6. Output current reading with low pass filter enabled.

Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the ac voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter is turned on, the meter will be in the 600 mV manual range mode.
  • Place the clamp around each of the output phase cables in succession, recording each of the readings as they are taken (see Figure 6). Since these clamps output 1 millivolt per amp, the millivolt readings shown on the 87-V display are the actual phase current readings in amps. This measurement would not be possible without the low pass filter (see Figure 5).

Motor speed (Output frequency using current as a reference)

For motors that pull at least 20 amps of running current, motor speed can be determined by taking a frequency measurement with current clamps. Until now, noise issues have prevented accurate readings using hall effect type clamps. Here's how the low pass filter makes it possible.

Motor speed using a Hall Effect type (AC/DC) clamp (i410,i-1010)

  • Connect the clamp to the common and V/W input jacks.
  • Select the ac voltage function.
  • Press the yellow button to enable the low pass filter. This allows the meter to reject all of the high frequency noise generated by the drive controller. Once the low pass filter has been turned on, the meter will be in the 600 mV manual range mode.
  • Place the clamp around one of the output phase cables. Verify that the multimeter is reading a current of at least 20 amps (20 mV in the display).
  • Press the Hz button. The readings now display the motor speed as a frequency measurement.

Motor speed using a transformer type clamp (i200, 80i-400, 80i-600A)

  • Connect the clamp to the common and 400 mA input jacks.
  • Select the mA/A AC function.
  • Place the clamp around one of the output phase cables. Verify that the multimeter is reading a current of at least 20 amps (20mA in the display).
  • Press the Hz button. The readings now display the motor speed as a frequency measurement.

DC Bus measurements

A healthy dc bus is a must for a properly operating motor drive. If the bus voltage is incorrect or unstable, the converter diodes or capacitors may be starting to fail. The DC bus voltage should be approximately 1.414 times the phase to phase input voltage. For a 480 volt input, the DC bus should be approximately 679 VDC. The DC bus is typically labeled as DC+, DC- or B+, Bon the drive terminal strip. To measure the DC bus voltage:

  • Select the dc voltage function.
  • Connect the black probe to either the DC- or B- terminal.
  • Connect the red probe to the DC+ or B+ terminal. The bus voltage should agree with the example mentioned above and be relatively stable. To check the amount of ac ripple on the bus, switch the 7V's function switch to the vac function. Some small drives don't allow external access to the DC bus measurement without disassembling the drive. If you can't access the DC bus, use the peak min max function on the multimeter to measure the dc bus voltage via the output voltage signal.
  • Plug the black test lead into the common jack and the red test lead into the V/½ jack.
  • Select the AC voltage function.
  • Connect the black probe to one of the three phase output voltage or motor terminals. This will be the reference phase.
  • Connect the red probe to one of the other two phase output voltage or motor terminals.
  • Press the MIN MAX button.
  • Press the (Peak min max) button.
  • The displayed reading in Peak min max will be the DC bus voltage.

Click on a category to view a selection of compatible accessories with the Fluke 287/FVF FlukeView Forms Combo Kit.

Fluke TL175 TwistGuard Test Leads Set TL175
By simply twisting the test lead the user can change the exposed probe tip length from 19 mm to 4 mm (0.75 inch to 0.16 inch).




Fluke TL910 Electronic Test Probe Set TL910
One pair (red, black) of leads with very small tips to access hard to reach electronic test points.




Fluke TL81A Deluxe Electronic Test Lead Set TL81A
Works with Digital Multimeters that accept safety shrouded, standard diameter, banana connectors. Includes a quad-fold nylon pouch.




Fluke TL80A Basic Electronic Test Lead Set TL80A
1 meter long silicone test lead set, alligator clip and probe tip extender in a soft carrying case.




Fluke TL76 Test Lead Set TL76
Pair of red, black silicone test leads with right angle shrouded 0.16" (4 mm) banana plugs.




Fluke TL75 Hard Point™ Test Lead Set TL75
Offers the convenience of a test lead and probe-in-one unit with a variety of connections. One pair (red, black) comfort grip probe with PVC insulated right angel shrouded 0.16" (4 mm) banana plugs.




Fluke TL71 Premium Right Angle Test Lead Set TL71
Comfort grip probes with flexible silicone-insulated, right-angle test leads. They are heat and cold resistant, with a safety rating of CAT II 1000 V, 10 A.




Fluke TL40 Retractable Tip Test Lead Set TL40
Adjustable to desired length from 0 to 76mm.




Fluke TL224 SureGrip™ Silicone Insulated Test Leads TL224
These insulated test leads provide the convenience and variety for test lead configurations by attaching clips, hooks and grabbers as needed.




Fluke TL223 SureGrip™ Electrical Test Lead Set TL223
Designed for your comfort so you can focus on taking accurate measurements, this handy all-in-one kit comes equipped with a SureGrip alligator clip set, slim-reach test probes (flat bladed), and SureGrip silicone test lead set.




Fluke TL970 Hook and Pincer Kit TL970
Kit includes TL940 Mini-Hook Test Lead Set, TL950 Mini-Pincer Test Lead Set, and TL960 Micro-Hook Test Lead Set.




Fluke TP2 Slim Reach Test Probe Set TP2
Ideal for probing closely spaced or recessed terminals, this slim reach test probe set also features hard stainless steel probe tips.




Fluke TP220 SureGrip™ Industrial Test Probes TP220
For use with the TL222 and TL224. Additionally, these industrial test probes feature 0.5" (12 mm) stainless steel tips that provide reliable contact and flexible finger barrier, which improves grip.












Fluke TP4 Slim Reach Test Probe Set TP4
Features hard stainless steel probe tips, this slim reach test probes set is designed to fit securely into IEC electrical wall outlets.




Fluke TP38 Slim Reach Test Probe Set TP38
Comes with hard stainless steel probe tips, this slim reach test probes set comes in one pair of slender probe bodies that for probing closely spaced or recessed terminals. Additionally, they feature an insulated probe tip.




Fluke TL221 SureGrip™ Test Lead Extension Set TL221
Features over molded surfaces and finger-hugging curves for a more comfortable and reliable grip, this test lead extension set is designed to improve steadiness in slippery hands.




Fluke pc3000 FC Adapter and Software PC3000-FC
This USB adapter and software allows your PC or laptop to communicate with up to 10 Fluke Connect wireless devices.




Fluke ir3000 FC Connector FLK-IR3000FC
Connect your Fluke test tool with the ir3000 FC connector and get all the benefits of the Fluke Connect™ app.




Fluke C280 Polyester Soft Carrying Case C280
Compatible with Fluke 287 and 289 DMMs or other similar format test tools





Fluke TPAK ToolPak Magnetic Meter Hanger ToolPak
Hang your meter in a variety of ways for convenient hands-free operation. Attaches to most Fluke meters.




Fluke C550 Premium Tool Bag C550
Tool Bag with steel reinforced frame.




Fluke C25 Large Soft Carrying Case for Digital Multimeters C25
Featuring a durable, zippered carrying case with padding and inside pocket, and high quality polyester exterior. It includes a convenient hand strap and carries most of Fluke's popular digital multimeters.




Fluke C100 Hard Sided Carrying Case C100
Carrying Case for all handheld multimeters.




Fluke i400 AC Current Clamp, 400 A AC I400
For use with digital multimeters, this current clamp allows users to take accurate current measurements without breaking electric circuits. Additionally, it measures up to 400 A AC.




Fluke i410 AC/DC Current Clamp I410
The current clamp expands the functionality of digital multimeters and measures up to 400 amps for both AC and DC currents. The large clamp claw gives you access to difficult to reach areas.




Fluke 80PK-9 General Purpose Probe 80PK-9
Featuring a general purpose type-K thermocouple probe for surface, air and non-caustic gases. It has a measuring range of -40 to 260°C.




Fluke i2000 FLEX Flexible AC Current Clamp I2000-FLEX
Utilizing the Rogowski principle, the clamp can be used to measure currents up to 2000 A when used in conjunction with multimeters, recorders, or data loggers. The flexible and lightweight measuring head allows quick and easy installation in hard to reach areas.




Fluke i1010 AC/DC Current Clamp I1010
Highly reliable, measures 1 to 1000 A, and provides accurate current reading without breaking the circuit. This clamp measures both AC and DC with a large jaw, battery-powered Hall-effect probe that gives access to difficult to reach areas.




Fluke 80PK-8 Pipe Clamp Temperature Probe 80PK-8
Uses Type-K thermocouple for fast temperature and superheat measurements of pipe surfaces. Designed to reliably measure the temperature of pipes ¼" (6 mm) to 1⅜" (35 mm) in diameter, at temperatures between -20 and 300°F (-29 and 149°C), while retaining a long service life.




Fluke 80PK-3A Surface Temperature Probe 80PK-3A
Compatible with any temperature measuring instrument that accepts type K thermocouples and features a miniature connector input. Additionally, this surface temperature probe is ideal for measuring the temperature of flat or slightly convex surfaces, with an exposed junction to allow direct contact with the surface being measured.




Fluke 80PK-27 SureGrip™ Industrial Surface Temperature Probe 80PK-27
Compatible with any temperature measuring instrument that accepts type K thermocouples features a miniature connector input and a cold reference junction compensation. Additionally, this industrial surface temperature probe is ideal for surfaces in rugged environments.




Fluke 80PK-26 SureGrip Tapered Temperature Probe 80PK-26
Features a tapered tip, making this tapered temperature probe ideal for use in air, non-caustic gas, and surface applications.




Fluke 80PK-25 SureGrip™ Piercing Temperature Probe 80PK-25
A K type thermocouple probe that is suitable for the food industry, liquids, and gel.




Fluke 80PK-24 SureGrip™ Air Temperature Probe 80PK-24
A K type thermocouple probe ideal for use in air and non-caustic gas measurements. Additionally, this air temperature probe features a bead protected by perforated baffle.




Fluke 80PK-22 SureGrip™ Immersion Temperature Probe 80PK-22
Compatible with any temperature measuring instrument that accepts K type thermocouples and features a miniature connector input. Additionally, this immersion temperature probe is for use in liquid and gels, and can also be used as a general-purpose probe.




Fluke 80TK Thermocouple Module 80TK
Thermocouple converter that accepts the output of any K-type thermocouple and converts it to 1 mV per degree (Celsius or Fahrenheit).




Fluke 80K-6 KV High Voltage Probe 80K-6
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 6000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke 80K-40 High Voltage Probe 80K-40
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 40,000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke 80K-15 High Voltage Probe 80K-15
Designed to extend the voltage measuring capability of an AC/DC voltmeter to 15,000 V peak AC or DC Overvoltage Category I. The probe provides high accuracy when used with a voltmeter having 10 MΩ input impedance. Intended for low energy applications.




Fluke AC220 SureGrip™ Alligator Clips AC220
Designed to improve steadiness with rubber overmolded surfaces and finger-hugging curves. For use with TL222 and TL224 test leads.




Fluke AC280 SureGrip™ Hook Clips AC280
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke AC285 SureGrip™ Alligator Clips AC285
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke AC283A SureGrip™ Pincer Clips AC283A
Designed to improve steadiness in slippery hands, and is for use with TL222 and TL224 test leads. Rubber over-molded surfaces and finger-hugging curves give a comfortable, reliable grip so you can focus on making an accurate measurement.




Fluke FlukeView Forms Software with cable (FVF-SC2) FVF-SC2
For use with the Fluke 180 Series, 789, 1550B, 1550C, 1555, 53-2-B, 54-2-B and 1653.




Fluke AC89 Heavy Duty Insulation Piercing Test Clip AC89
Single probe pierces 0.01 to 0.6" (0.25 to 1.5 mm) insulated wire with a small pin allows self-healing of the insulation, and 1000 V, 10 A maximum.




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