Reviewing Distance-to-Spot Ratio With Fluke Infrared Thermometers
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- Опубліковано 7 вер 2024
- bit.ly/2GD1GOv
In this video, learn about the distance-to-spot ratio with Fluke IR thermometers and the features of Fluke IR thermometers to help you in selecting the right tool for your application.
The Fluke 62 MAX+ infrared thermometer delivers the features and accuracy you need to non-contact temperature measurements on a wide range of equipment. Just point, shoot, and read the temperature of transformers, motors, pumps, panels, breakers, compressors, duct, steam lines, valves, and vents. Its small size and versatile features make it extremely easy to use. Plus, it’s rugged enough to take a 3-meter drop, which is good news if you work from a ladder. The accurate infrared technology and dual lasers provide a 12:1 distance to spot ratio, making it easier to accurately measure temperatures in hard to reach areas. With its IP54 rating for dust and water resistance you can rely the Fluke 62 MAX+ to provide extremely accurate temperature measurements, rain or shine, in even the dirtiest and dustiest industrial sites.
The Fluke 62 MAX Infrared thermometer delivers many of the features of the Fluke 62 MAX+, but features a single laser and 10:1 distance to spot ratio. You can use the Fluke 62 MAX to perform non-contact temperature measurements on transformers, motors, pumps, panels, breakers, compressors, duct, steam lines, valves, and vents. It is small in size and extremely easy to use. The single laser helps you pinpoint the target for more accurate readings and makes it easier to measure temperatures in hard to reach areas. With its IP54 rating for dust and water resistance you can rely the Fluke 62 MAX to deliver accurate, repeatable temperature measurements, rain or shine, in even the dirtiest and dustiest industrial sites.
For more information about the Fluke 62 Max+ Ir thermometer, visit the Fluke website here: bit.ly/2PPE7S1
For more information about the Fluuke 62 Mini IR thermometer, visit the Fluke website here: bit.ly/2rNNnwa
I would suggest emphasizing that the maximum distance-to-spot ratio often gets confused with the maximum distance that a user can take a measurement. I get this a lot even with many of my instructors.
1. Is there a distance limitation to these. 2. Could I get a reading from a mile away? 3. When I point it skyward what is the reading? Is it the average for a certain distance and if so - what distance?
Watch the video! That should give you the answers. Spoiler (get as close as you can safely).
@@fluke What causes it to give a reading when pointed into a clear sky??? often a negative reading, but still a reading.
Hi! Contact the customer support team for detailed information about this (or any other) product. You can reach them on: fluke-info@fluke.com
well that answers that question, thank you!
Awesome! Thanks for watching, Chris. Please let us know if you have any additional questions. We're happy to help.
Hi, Does Fluke 62 Max suitable to measure 3~7mm spot?
for 3mm spot required at least 30mm distance,right?
What are the minimum spot distance for Fluke 62 Max?
Hi! According to the manual (page 14), it will not measure at these distances. bit.ly/3PHCMLY
What is the minimum distance from which you can measure object?
Can you measure from 2cm away and get correct readings of surface 2mm in diameter?
Asking, cause I need to measure small, about 2-5mm diameter areas, but I can get to object as close as 1cm. Cannot find anywhere minimum working distance.
Hi there - The minimum measurement spot of the 62 MAX+ is 27mm in diameter. Unfortunately, we do not have a model that will measure a 2mm-5mm spot.
@@fluke, does this mean, the closest someone should measure at is 270mm away? 10 to 1 ratio?
@@fluke or, if you measure from 100mm away, the spot is still 27mm?
Upto how much far can it detect temperature?
Hello - The IR thermometers, like the 62 Max or Mini, can detect surface temperature at any range. But the farther back you are from the target, the larger the detection spot will be. If the detection spot size is larger than the object you are looking at, then your temperature readings will be skewed because you could be taking temperature readings of the object and the surrounding surfaces. So if you were looking at a pipe, 1 inch diameter, and you had a IR thermometer with a 10:1 distance to spot ratio, you could only be 10 inches away to get a 1 inch spot size.
¿Alguien lo puede traducir al español? Lo agradecería bastante