- 320 x 240 true native IR resolution
- 24° x 18° (17 mm lens), 14° x 10° (29 mm lens) and 42° x 32° (10 mm lens) field of view (FOV)
- Object temperature ranges: -20 °C to 120 °C (-4 °F to 248 °F); 0 °C to 650 °C (32 °F to 1200 °F); 300 °C to 1000 °C (572 °F to 1830 °F) with T199559 High Temperature Option (Must Order with Imager)
- Vibrant LCD is 33% brighter than previous EXX models
- Large, 4 in. display
- 160° viewing angle
- Improved Multi-Spectral Dynamic Imaging (MSX) Technology adds visible spectrum definition to IR images by detecting edges of objects
- UltraMax processing/super-resolution quadruples pixel counts
- Laser-assisted autofocus improves accuracy for precise temperature measurements
- Continuous focus mode responds quickly and promotes safe one-hand use
- Separate autofocus and record functions prevents accidental re-focusing
- Detects temperature differences down to 30 mK
- True 42° FOV for wide area surveys with single lens
- Quick response capacitive touchscreen
- Updated GUI with improved flow and feedback
- Logical navigation on screens and in menus
- Embed moisture meter data through METERLiNK
- Upload images and report critical issues over Wi-Fi
- Image annotation includes voice, text, on-screen sketch, GPS tagging, and compass
- Enhanced image analysis and reporting through FLIR Tools+ software
The FLIR E75241442 Advanced Thermal Imaging Camera with MSX and UltraMax Technologies, 24°, 14° and 42° Lenses, 320 x 240, 30 Hz offers superior sensitivity and a true 42° field of view in a user-friendly, handheld platform. This camera can detect even subtle indications of building deficiencies and moisture intrusion, and offers on-screen area measurement, so that you can easily quantify and document air leaks, moisture, and other building problems.
Your job can take you up ladders and into crawl-spaces, so you need tools that can be used one-handed and worry-free. FLIR designed E75-24-14-42 to be tough enough to use every day, with simplified buttons and intuitive screens that allow you to focus on your work, instead of on the camera controls.
The E75-24-14-42 produces standard radiometric JPEGs that can be opened and viewed without proprietary software. Image files produced by the E75-24-14-42 are supported by FLIR's Software Development Kit (ATLAS SDK), so that companies can use their own software and still support thermal measurement read-outs, METERLiNK data, and other important parameters embedded within the image; embedded current and voltage measurements are also accessible.
Electrical and Mechanical Applications
The FLIR E75-24-14-42 offers the superior resolution and range performance needed to quickly identify hot spots and discover potential points of failure in electrical distribution and mechanical systems. With up to E75-24-14-42 pixel resolution and a larger, more vibrant LCD screen, the E75-24-14-42 makes it easier than ever to diagnose problems, even at a distance. Avoid costly shutdowns and lost production time through regular predictive maintenance routines with this rugged, intuitive camera.
Multiple Targets, One Solution
Not every target is large enough or close enough for proper measurement with a single lens. That is why FLIR designed the E75-24-14-42 with interchangeable 24°, 42°, and 14° lenses, so that you can use the same camera for every target you survey. The camera auto-calibrates with each new lens to ensure it produces high-quality images and precise thermal measurements.
Multi-Spectral Dynamic Imaging (MSX) Technology adds visible spectrum definition to IR images by detecting the edges of objects. Text becomes clearly visible so that you can read a label or identifier within the IR image. This exclusive function provides extraordinary thermal detail that instantly highlights and orients problem locations and eliminates the need to refer back to a visual image for detail.
Breaker panel (MSX)
Missing insulation - summer day (MSX)
Warm drain pipe - wall (MSX)
UltraMax is an image enhancement technology in the E75-24-14-42 that captures a series of thermal images and combines the data into one new image. The result is an impressive quadrupling of thermal pixels, including full radiometric measurement data.
As a result, UltraMax thermal images will be clearer and larger, allowing for a better analysis of small details. Because of an increased number of pixels covering the same target area, UltraMax also decreases measurement spot size. This gives greater measurement accuracy to particularly small details. With the new UltraMax feature, users can obtain even better results, allowing them to be even more productive.
UltraMax is a type of superresolution, a technique for combining the information from multiple original images into an image with higher resolution and less noise. This might seem similar to two other scaling techniques - interpolation and pixel averaging. However, they are totally different.
UltraMax uses the natural movement of the human body to capture an image set in which each image is slightly offset from the others. This results in a wealth of data that is much greater than any one image could provide. The data is combined to form an image that includes many more pixels of the target, resulting in a resolution greater than that of the original camera detector. The data is also used to create a clearer image, since pixel noise can be reduced through comparing similar points in multiple images.
FLIR UltraMax captures 16 thermal images in less than one second. These are stored on the camera as a single jpg file, and will appear as one image when viewed on the camera or in software. In the FLIR Tools environment, you can choose to enhance the image resolution. This is the UltraMax functionality. The enhanced image will have twice the original resolution and four times as many pixels. All pixels still include radiometric data, just as with normal FLIR thermal images.
As a result, UltraMax thermal images will be clearer and larger, allowing better analysis of small details. Because of an increased number of pixels covering the same target area, UltraMax also decreases measurement spot size. This gives greater measurement accuracy to particularly small details.
|T911631ACC||FLIR T911631ACC USB 2.0A-to-USB Type-C Cable for Exx and T5xx Series, 0.9m||
|T911633ACC||FLIR T911633ACC Power Supply for Battery Charger for Exx and T5xx Series, 15W/3A||
|T911630ACC||FLIR T911630ACC Power Supply for Exx and T5xx Series, 15W/3A||
|T199330ACC||FLIR T199330ACC Battery for Exx Series||
|T911632ACC||FLIR T911632ACC USB Type-C-to-HDMI Adapter for Exx and T5xx Series||
|T199346ACC||FLIR T199346ACC Hard Carrying Case for Exx Series||
|T198583||Flir T198583 Flir Tools+ Reporting Software Scratchcard (2 Users)||
|T199588||FLIR T199588 14° Lens with Case||
|T199589||FLIR T199589 24° Lens with Case||
|T199590||FLIR T199590 42° Lens with Case||
|T199559||FLIR T199559 *Internal Option* High Temperature Option 300 °C to 1000 °C for Model E75 (Must Order with Imager)||