Uni-t Uti260B – The Best Recommended Thermal Imager Camera
Thermal imaging camera is growing in popularity thanks to advancement in technology and reduction in prices of technological devices.
There are different uses of thermal imaging technology, from leak detection and home maintenance to hunting during a dark night. This made it a superstar in various fields due to the variety of aids it offers.
The thermal imager camera are mostly used for checking operating temperature of electronics and machines to help in detecting issues and malfunctions. Being able to see behind the walls and detect cold and hot temperatures, this tool enables you to prevent possible problems in various machines and equipment.
The wide variety of thermal imager cameras, however, has made it difficult for buyers to identify the best thermal imager cameras in the market.
Thermal Imager Camera Buyer’s Guide
Thermal imager cameras are highly-advanced heat sensory innovations, and it’s futile to expect that everyone will be an expert about this tool. Buying an efficient thermal imaging camera can be pretty hectic, especially for beginners.
What makes a thermal imager camera any different from a standard camera?
Although the standard cameras are used for the sole purpose of clicking images, thermal imaging cameras are used to detect heat emissions. A standard camera lens is not engineered to identify any change in temperature. On the other hand, thermal cameras are excellent sensors when it comes to recognizing the minor differences in heat.
Is it better to rent or buy a thermal imaging camera?
Well, we understand that the high-end thermal imaging cameras can be unreasonably pricey at times. However, it is so because the price of a thermal imaging camera varies according to the list of features it offers in exchange. In such a situation, renting a thermal imaging camera for one-time use may sound like a smart idea.
Now, renting allows you to explore different thermal camera brands. You will be able to gain higher expertise at using thermal imaging cameras if you rent these cameras. However, if you buy one, you’ll always have the tool nearby, which saves you from the hassle of booking appointments and renting.
That is why we recommend you buy our Uni-t Uti260B Thermal Imager Camera to you from this article.
How thermal imaging cameras work?
An infrared, IR or thermal imaging camera works by detecting and measuring the infrared radiation emanating from objects – in other words, their heat signature.
In order to do so, the camera must first be fitted with a lens that allows IR frequencies to pass through, focusing them on to a special sensor array which can, in turn, detect and read them.
The sensor array is constructed as a grid of pixels, each of which reacts to the infrared wavelengths hitting it by converting them into an electronic signal. Those signals are then sent to a processor within the main body of the camera, which converts them using algorithms into a colour map of different temperature values. It’s this map which is sent on to be rendered by the display screen.
Many types of thermal imaging camera will also include a standard shooting mode that works with the visible light spectrum, much like any other point-and-click digital camera. This allows for easy comparison of two identical shots – one in IR and one in normal mode – to help quickly identify specific problem areas once the user steps out from behind the lens.
UNI-T UTi260B Thermal Camera Imager Detail Specs
The Uni-t Uti260B Thermal Imager Camera is an infrared thermal imager designed to detect abnormal temperature points and combines surface temperature measurements with real-time thermal images. It adopts a UFPA detector to ensure excellent infrared resolution with 7 varieties of palette mode.
Uni-t Uti260B Thermal Imager Camera FEATURES
– Real-time image transmission
– Infrared resolution 80 x 60 to 256 x 192 pixels
– Thermal, blending, visible, PIP display mode
– Auto capture of Hi/Low temperature
– 2.8″ TFT LCD Display screen
– Rechargeable lithium battery (not included)
– IP65 rating, 2m drop-proof test
– PC software for data analysis and report output
– Buzzer/flashlight alarm
– 1/4″ tripod mounting hole
– Focus free
– CE / RoHS Certified
Uni-t Uti260B Thermal Imager Camera SPECIFICATIONS
Temperature range -15ºC to 550ºC
IR resolution 256×192 pixels
Field of view (FOV) 56°×42°
Thermal sensitivity (NETD) 50mk
Spatial resolution (IFOV) 3.8mrad
Frame rate 25Hz
Measurement accuracy ±2ºC or ±2% whichever is greater
Palettes 7
Emissivity Adjustable (0.01-1)
Display 2.8″ LCD
Powered by 3.6V 5000mAh Li-ion battery (not included)
Size 236mm x 75.5 mm x 86mm
Weight 910g
Uni-t Uti260B Thermal Imager Camera WHAT YOU GET
1 x UTi260B Thermal Imager
1 x Micro SD Card
1 x Micro USB Cable Type C
User Manual
UNI-T UTi260B Thermal Imager Camera Video Review
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What are the most important features to consider before buying a Uni-T UTI260B thermal imaging camera?
What are the most important features to consider before buying a thermal imaging camera?
Buying the perfect Uni-t Uti260b thermal imager camera for you is quite a task, and we don’t want you to do it without having proper info about its must-have features. That being said, these are the essential features you need to consider before you buy a thermal imaging camera.
Imaging modes
As we already know, the primary use of a thermal imager camera is to generate the thermal picture of a suspicious area or object. However, it is imperative to evaluate whether the camera you’ve had your eyes on offers versatile image modes.
Although the old-fashioned units are good enough to click thermal images, the recent times are witnessing an increasing demand for the advanced ones that support fusion image modes. The fusion modes enable us to click both the normal and the thermal image, which comes with imprinted radiometric information.
LCD screen size
As its a camera at the end of the day, it’s significant for the unit to at least have a standard 3 inch LCD screen. Although there are various thermal cameras that offer around 5-7 inches of LCD screen, they can be a tad expensive. Nevertheless, you shouldn’t settle for anything less than a 3 inch LCD screen, as it may otherwise become tough for you to analyze the image on camera.
Refresh rate
Not to forget, it’s essential to check the refresh rate of the unit, when it comes to the thermal camera’s display. The minimum refresh rate that you can settle for is nine Hz; anything less than that will cause you trouble while adjusting the focus of the camera.You can have the best results if you can manage to find a model with a 60 Hz refresh rate.
Pixel resolution
If your camera fails to give you a high-quality thermal image, it will become tough for you to make an accurate error identification of the area or object that you’re examining. The higher the resolution is, the better you can zoom into the suspected object and make your job easier. You shouldn’t buy a thermal imager camera that offers less than 4800-pixel resolution.
Recommended Uni-t Uti260B Thermal Imager Camera For you from DealOutdoors
The Frequency Asked Questions Of Uni-t Uti260B Thermal Imager Camera
Uni-t Uti260B Thermal Imager Camera FAQ ?
Uni-t Uti260B Thermal imaging cameras tend to work better at night, but it has nothing to do with the state of the surrounding environment being light or dark.
Rather, because the ambient temperature – and, more importantly, the core temperature of otherwise-unheated objects and environments – is nearly always significantly lower at night than during sunlight hours, thermal imaging sensors are able to display warm areas at higher contrast.
Even on relatively cool days, heat energy from the sun will be gradually absorbed by buildings, roads, vegetation, construction materials and more while ever it’s daylight outside. And, for every degree these sorts of objects gain in ambient temperature over the course of the day, they become less clearly distinguishable from other warm objects the camera’s sensor is being used to detect and highlight.
For the same reason, most thermal imaging cameras will display warm objects in sharper contrast after several hours of darkness, rather than just after the sun sets – and, even during full daylight hours, they’ll usually be more effective in the early morning than in the middle of the afternoon.
You may be surprised to learn that thermal imaging cameras don’t generally work through glass.
A full explanation of the technical reasons for this would be somewhat complex from a physics standpoint, but the principle is pretty straightforward. In essence, a sheet of glass allows visible light through but acts a bit like a mirror for infrared wavelengths (this is why the lenses on IR cameras are commonly made from germanium or zinc selenide, not glass).
If you were to point a thermal detection camera at a window, what you’d see onscreen wouldn’t be a clear thermal rendering of what’s on the other side, but most likely a blurry mess – and possibly a vague reflection of yourself holding the camera!
It’s not an absolutely hard and fast rule; certain infrared frequencies can pass through glass, and certain types and configurations of glass may allow varying degrees of infrared to pass through. Car windscreens tend to yield better results than standard household glazing, for example.
In most cases though, the image will be largely obscured by infrared reflection from the ‘wrong’ side of the glass, overlaid in varying degrees of opacity. At the very least, the object being viewed will lack significant detail and contrast.
In short, you won’t want to be using a thermal imaging camera to get accurate readings through glass (or various other types of highly reflective surfaces).
Uni-t Uti260B Thermal Imager cameras don’t tend to work well underwater. The reasons are, in part, related to the issues with glass outlined above.
Water blocks a lot of infrared wavelengths, much as an opaque barrier blocks visible light wavelengths. In the same way that we can’t see through paint, infrared sensors can’t ‘see’ through any significant depth of water, because the waves it detects don’t pass through water easily.
Water also provides another challenging issue for IR cameras, related to thermal conductivity and specific heat. Water has a much higher heat capacity than air, requiring four times as much energy to raise or lower the temperature of an equivalent volume by one degree.
In practical terms, this means that objects lose (or gain) their own heat energy relative to water much faster, and over shorter distances. For thermal imaging purposes, objects are therefore naturally harder to differentiate when submerged than they would be in the air.
Well, no – but to be fair, they don’t ‘see through’ anything at all. A thermal imaging camera detects the surface temperature of the first object in its line of sight; point one at a wall or other solid surface, and it will register the heat being radiated outward by that surface
Because most buildings are engineered and insulated to trap heat, exterior thermographic imaging seldom reveals much about what’s going on inside and vice versa. There are some caveats here: an IR camera can be used to detect extreme heat radiating from behind a wall (such as in the case of a house fire), because the wall itself would quickly heat up too.
Similarly, some thermal cameras are sensitive enough (up to +/- 0.01 Celsius) to register the warmth given off by a person, for instance, standing against the opposite side of a sufficiently thin (and cold!) wall – but only if they remain in place long enough for their own body heat to partially transfer through the materials of the wall in that spot.
It’s a self-contained rechargeable battery.
Yes,we have it in stock and we can ship it out soon.
yes,all of our products are freeshipping all over the world.
This tool is only good for heat sources. For water leaks, check out You tube it shows simple way to check for leaks. Otherwise your best bet is to pressure test your pipes, expensive and needs big machinery.
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