Blog

The Pulsar Thermion 2 XP50 and XQ50 were seriously impressive performers, but with advances in technology, Pulsar launched two new models with the PRO designation, which brought the latest low NETD thermal sensitivity sensor technology to the Thermion, with a staggering sub 25mk NETD.The Thermion 2 XP50 PRO is also available with the letters “LRF” in the name, which designates an integrated laser rangefinder, the ‘bulbous’ part at the front lens, which houses a laser to rangefind in the field with the touch of a button.

Pulsar claim a detection range of up to 1800m, now this doesnt mean you can go shooting rabbits at over 1km, this means the scope will “detect” a man sized object at 1800m in ideal conditions, and will render a few pixels of heat on the display. You wont be able to tell its a man…or bigfoot at that distance, but it will detect there is something there.With a 384×288 sensor, the XQ50 PRO still will detect a man sized object in ideal conditions at 1800m, but the recognition and identification range can often be much less as the smaller sensor pixelates much quicker when zooming in, and doesnt offer the resolution of the larger 640×480 thermal sensor.We do not charge you for credit broking services. We will introduce you exclusively to Omni Capital Retail Finance Limited finance products provided by Omni Capital Retail Finance Limited through the Deko platform.The issue with the smaller sensor is that the resolution is smaller than the XP50 PRO meaning the level of detail is considerably less, so that fox at 200m in the XP50 PRO is a defined fox, where as with the XQ50 PRO its not just quite as clear.

With a 640×480 sensor, the XP50 PRO features the highest resolution currently available in a Pulsar product, but also features a LOWER magnification to the XQ50 PRO series. We talk about detection range, recognition range and identification range, and as a VERY rough rule of thumb it is often considered to divide it by 2.5 to get a rough idea of sensible ranges. Now to most…this wont make any sense…but to explain we take a look at not only the difference with the latest sensitivity but also the differences in the Thermion 2 models, and whether you go for the big budget XP series or the mid range XQ series.With sub 25mk NETD the XP50 PRO delivers truly breathtaking performance, with the ability to deliver a wide field of view on 2x base mag, but with up to 16x mag via digital zoom, the higher res sensor ensures the image doesnt pixelate as you mag up through the 2x-16x range.

What the Thermion 2 XQ50 PRO does have over the XP50 PRO is a larger native base magnification of 3x which means you have a more “zoomed in” image with narrower field of view than the XP50, so the fox will appear slightly larger a target, albeit with less resolution and detail.Technologically advanced, the Thermion 2 LRF XP50 PRO boasts built-in photo and video recording, and it has Wi-Fi connectivity, to upload data to the Stream Vision 2 App. Further, the Thermion 2 LRF XP50 PRO can withstand calibers from 12 gauge, 9.3×64 and .375 H&H, and it is rated IPX7 completely waterproof, so you can use it in the harshest of weather conditions.

When you need a powerful thermal riflescope with a classic design and built-in laser rangefinder, few scopes can match the prowess of the Thermion 2 LRF XP50 PRO. It features 10 reticle shapes in 9 color modes, Picture-in-Picture mode and 5 unique shooting profiles.

Pulsar’s Thermion 2 LRF XP50 PRO is a potent thermal imaging riflescope that combines a classic, sleek design with a built-in laser rangefinder. Its extremely powerful 640×480 microbolometer resolution detects heat signatures up to 2,000 yards and displays them on a crisp 1024×768 AMOLED display. With an impressive 10 hours of battery life, this thermal riflescope boasts high-precision, ambidextrous lens focusing and a variable magnification of 2x-16x. The included laser rangefinder has a range up to 875 yards, helping to illuminate and locate various targets.

We use cookies to improve our services, make personal offers, and enhance your experience. If you do not accept optional cookies, your experience may be affected.

Durch die Verwendung eines OLED Displays im Okular werden auch zusätzliche Informationen wie Uhrzeit, eingestellte Modi etc. angezeigt. Verschiedene Absehen können aus einer Bibliothek gewählt werden.Die Pulsar Thermion waren immer schon gut, aber nun sind diese nochmal spürbar besser. Das neue Thermion 2 LRF XP50 Pro zeigt nun noch mehr Details bei glatteren Bildern. Durch den neuen Sensor mit unter 25mK NETD und einer neuen Firmware, die Details schöner berechnet, erreicht es die höhste Detailschärfe die Pulsar je hatte.

Die XP Serie von Pulsar verwendet einen hochauflösenden Sensor mit 640×480 Punkten das Ihnen mehr Sehfeld auf kurze Distanzen und etwas mehr Vergrößerung bei 8x Zoom bietet. Die Bilder sind optimal scharf und detailreich. Auch das Bildrauschen ist gering wodurch die Abbildung rein erscheint. Die DMR Auflösung (Abdeckung pro Pixel) beträgt 3.4cm/Pixel auf 100m.

Das Thermion besitzt einen eingebauten Akku und wird mit einem zusätzlichen wechselbaren Akku ausgeliefert. Damit können Sie es auch dann verwenden, sollten Sie den externen einmal zu Hause vergessen haben. Außerderm können Sie unterbrechungsfrei arbeiten falls der erste Akku leer wird. Es wird immer erst der externe verbraucht, erst danach der interne Akku. Als Zubehör sind verschiedene Akkus erhältlich mit denen die Laufzeit beliebig verlängert werden kann. Mit den Thermion Wärmebildzielfernrohren können Sie Ihre besten Jagdmomente mittels eingebautem Videorecorder mit filmen oder fotografieren. Ebenso können via WLAN auch direkt auf Mobilgeräte streamen (StreamVision App). Die Firmware kann auch über die App aktualisiert werden. Die Bildwiederholfrequenz beträgt 50Hz wodurch ein flüssiges Bild in allen bewegten Sequenzen garantiert wird. Auch die Verzögerung ist sehr gering und absolut nicht sichtbar, was Schüsse auf flüchtiges Wild ermöglicht.Mit dem Pulsar Thermion sind Sie zu 100% unabhängig von Licht.Sie benötigen auch keine Lampen oder Aufheller, egal ob das Wild auf 30m oder 1000m steht. Sogar leichter Nebel ist für die Trail Zielfernrohre unsichtbar, was das Jagen speziell im Herbst deutlich erleichtert.

die Montage erfolgt wieder am 30mm Mittelrohr. Damit können relativ normale Ring-Montagen verwendet werden, was den Einsatz auf nahezu allen Jagdwaffen ermöglicht. Die erforderliche Ringhöhe beträgt ca. 7.5mm für Brückenmontagen (Tiefgang der Bedienelemente in der Mitte).Thermal scopes usually have a magnification of 1x to 8x, and their lenses are designed to be able to detect infrared radiation. The higher the zoom level of the thermal scope, the better the thermal resolution.On the other hand, night vision scopes usually have smaller lenses since they only need to detect light. This makes night vision scopes easier to carry and more convenient to use.

Both thermal scopes and night vision scopes have their own unique features and advantages, and it is important to understand their differences in order to make an informed decision.

A thermal scope is a type of vision equipment that uses infrared radiation to detect heat signatures. Thermal scopes are used for a variety of purposes, such as detecting animals in the dark, observing the movements of people, and even measuring the temperature of objects.Night vision scopes usually have a magnification of 1x to 8x, and their lenses are designed to be able to detect the faint light present in a dark environment. The higher the zoom level of the night vision scope, the better the image clarity. The first key difference between night vision scope vs thermal is in their build. Thermal scopes are typically bulkier than night vision scopes due to their larger lenses. The larger lenses are necessary in order to detect the infrared radiation emitted by objects. When it comes to outdoor activities such as hunting, security, surveillance, and even astronomy, the right type of vision equipment can make all the difference. Thermal scopes and night vision scopes are two popular types of vision equipment that are used for a variety of purposes. But how do thermal scopes work and night vision scopes?

The Mileseey PF2H Monocular Laser Hunting Rangefinder is ideal for hunters and outdoor adventurers. It has a magnification of 1x to 8x and uses a laser rangefinder to accurately measure the distance between objects.

The main difference in thermal scope vs night vision is in their function. Thermal scopes are designed to detect heat signatures, while night vision scopes are designed to detect light.

The suitability of thermal vs night vision scope also varies depending on the activity. Thermal scopes are usually used for hunting, security, and surveillance, while night vision scopes are usually used for navigation, surveillance, and astronomy.

Mileseey TNV10 is a great choice for hunters and security personnel. It has a magnification of 1x to 8x and uses an image intensifier tube to detect light in low-light conditions.

The unique feature of thermal scopes is that they are able to detect heat signatures even when there is no light present. This means that thermal scopes can be used in complete darkness, making them an ideal choice for hunting and surveillance.

In conclusion, thermal Scopes vs. Night Vision Scopes are two popular types of vision equipment that serve different purposes in different outdoor activities. Thermal scopes are designed to detect heat signatures, while night vision scopes are designed to detect light.The light source used by thermal vs night vision scope is also different. Thermal scopes use infrared radiation to detect heat signatures, while night vision scopes use an image intensifier tube to amplify the faint light present in the dark environment.A night vision scope is a type of vision equipment that uses an image intensifier tube to detect light. This tube is a specialized device that amplifies the faint light that is present in the dark environment and allows the night vision scope to provide a clear image.

This means that thermal scopes are able to detect objects even in complete darkness, while night vision scopes are only able to detect objects in low-light conditions. This makes thermal scopes ideal for activities such as hunting and surveillance, while night vision scopes are better suited for activities such as navigation and astronomy. The magnifying power of both thermal scopes and night vision scopes can range from 1x to 8x. The higher the zoom level, the better the thermal resolution or image clarity. This allows users to detect objects from greater distances. Additionally, the bigger the resolution, the farther your thermal camera can detect heat. Thus, a 320 x 240 resolution thermal device can detect accurately from a distance of 60 feet, a job a 60 x 120 resolution thermal can do at a 30-feet distance. It’s best, therefore, that you get familiar with your job at hand before you choose a thermal camera that best fits your needs.

Lastly, you have the back processor electronics which receives data from the thermal sensors. This is where said data is converted to color representations for display.At its most basic, a camera operates like our eyes. It’s an optical instrument meant to capture an image. So if after months on end of traveling on foot, you finally reach the top of Mt. Everest, you definitely would want to bring a camera. To tell the world of your conquest.

. Today, however, we have colored representation. The RGB coloring is thanks to a color filter array (CFA) and tons of algorithms designed to construct a colored version of a greyscale image. As thermal camera prices have dipped considerably over the years, it certainly is a ripe time for you to explore your precious abode with a handy infrared camera unit in hand. Not only will you be able to screen visitors for rising temperatures but also you’d be able to keep your house in order that way. U.S. military would soon jump in the fray. In 1947, they invented the first infrared line scanner allowing the thermal camera to develop corresponding images from infrared input. Pretty soon, American soldiers were touting a more advanced infrared imaging technology in the Korean War (1950 – 1953). In today’s modern world where interplanetary travel is already being actively explored, you really can’t underestimate the importance of thermal cameras and their role in expanding man’s dominance in the universe. And that makes these electronic devices so awesome. They see what our human eyes can’t. What’s more, these impressive devices can do all that even in total darkness.Additionally, a portable thermal camera can detect heat surges in an electrical system resulting from any electrical anomaly. Using an infrared camera is therefore the fastest way to uncover an anomalous electrical circuit be it in your home system or in your child’s class projects.What’s more, a better-resolution thermal camera is capable of measuring heat from a greater distance compared to lower-resolution ones. To sum up, this is what it offers:Handy thermal cameras can detect packets of energy loss. Once it zeroes in on a sudden drop, locating these holes in a home’s insulation is easier. The same holds true for both heating and cooling systems. A hole in your insulation is bound to display an unmistakable heat signature as opposed to the temperature of your indoor surroundings.

Thermal cameras can be a lot of things for a lot of people. They can be a prized possession for home inspectors who must ensure a property is as energy-efficient as can be. But there are uses in thermography that require far more finesses. One used for R & D is atop that list.

In short, the higher the resolution of a thermal camera the more accurate is its temperature measurements. An infrared camera with 320×240 resolution, for instance, can detect the heat of an area smaller than a tenth of a square inch from a 6-feet distance, a job where the 160×120 resolution will fail. The latter won’t be able to produce an image even if the target is twice that size.All sorts of people are attracted to the realm of the invisible. So, it’s no surprise the thermal camera’s ability to uncover what the eyes can’t see has spurred a long list of uses that has only gotten longer over the years — from detecting ghosts to zeroing in on electronic defects in a PCB. Many of these uses are for hobbyists while a slew has become operational standards both for industrial and home use.

Bear in mind, however, that the infrared image sensor in your smartphone is very limited in terms of the number of pixels. So if you want a professional-grade thermogram, you will have to look elsewhere.But one thing hindered many fire departments all over America to deploy TICs in every engagement. And that is the price. With thermal cameras carrying a price tag of over $20,0000 each, purchasing it was like facing a wall.

Additionally, there is also another NVG that uses infrared radiation. Unlike the modern NVG which are basically thermal in nature, infrared-led NVGs uses infrared light as active illumination. Meaning, it still acts like an old-school night vision. The difference is you get image amplification from infrared light. However, this is not as powerful as NVGs that use thermal cams to “see in the dark”.Thermal cameras which cater to gas detection (butane, methane) are mid-wave cameras with a spectral range between 3µm to 5µm. However, most thermal cameras in the market today are longwave cameras with a spectral range of 8µm to 14µm. These cameras offer wide applications, from home inspections to firefighting.

History is replete with such a momentous event. Small wonder the first thing Commander Neil Armstrong (along with module pilot Neil Aldrin) did when landing on the moon was turn the camera on for everyone to see. It’s true. Their first steps as they climbed down the ladder to make man’s first-ever moonwalk were telecast live and seen around the world on the 21st of July, 1969.Thermal cameras will have no problem seeing through these challenges. As it detects heat, it won’t have any issue detecting upcoming traffic or humans crossing even in total darkness or the presence of smoke, fog, and rain. Plus, they can extend the reach of your headlights farther than otherwise possible. This allows an autonomous car to see dangers far ahead, eluding them in the process. Little wonder top car manufacturers integrate these thermal sensors as part and parcel of a car’s safety mechanisms.

But if you’re out hunting at dawn and would want to know what kind of animal is in front of you, then night vision would be the answer. Like your ordinary camera, night vision has better target recognition compared to thermal cameras. In this sense, old-school tech wins.Yes, it’s true. You might be wondering why the resolutions are rather low compared to smartphone cameras which can don 100-megapixel resolution or high-res standard cameras which can go as high as 400 million pixel resolution.

Thermal Sensitivity dubbed also as NETD (Noise Equivalent Temperature Difference) is basically a measure of the smallest temperature difference your thermal camera can detect.That means obtaining the best picture quality is not the right measure for an infrared camera. Rather, it’s the ability to accurately detect heat energy that separates a so-so thermal camera product from a stellar one.

Luckily, technologies emerged that pushed the price of thermal cameras downwards. We’re talking about the microbolometers IR detector found in the majority of thermal cameras today.

That’s because the thermal camera’s resolution affects not just the image quality but also most importantly its ability to accurately measure heat differences. A higher-resolution thermal camera, therefore, can detect temperature differences better. Today, you can avail yourself of WiFi-ready portable 206 x 156 resolution thermal cameras at $599 or even less. It’s really amazing how technology can help us make the most of such a wonderful product with added guarantees. Active IR systems use near-infrared. Instead of heat, these systems use infrared to illuminate the scene so a camera can create a picture. A second-generation active-IR night vision is one example of such technology. What makes them even more attractive is they can operate without downtime as they require a lot less maintenance compared to cooled alternatives. Add their lower price tag and it’s no accident they’re a household word in the market today. However, you’d fare well to take note that (as mentioned above) thermal cameras aren’t actually cameras; they’re sensors. So the resolution plays a more crucial role in infrared imaging devices than in digital photography.It was the works of Sir William Herschel (1738 – 1822), a German astronomer who discovered the planet Uranus in 1781, that started the ball rolling. Working as the private astronomer to King George III of England, Herschel through the famous prism experiment measured the “heat of each of the colored rays” of the sun’s visible light using thermometers.As the microbolometer doesn’t need active cooling (discussed above), less pricey materials can be used to create TICs. Also, this allowed portable more compact designs.

To boot, you use a special kind of lens for thermal cameras. You can’t just use plexiglass, a common lens for standard visible-light cameras today, as it won’t be conducive to infrared radiation. More often than not, you use Germanium, a costly material.Plus, leaking gas and overheating electrical pieces of equipment are apparent in the eyes of infrared technology. Dangers that normally are not visible to the human eye such as hot spots in walls can easily be detected using the device. Best of all, thermal technology allows firefighting units to assess the situation in a jiffy, helping them suppress the fire and resolve the situation faster with far lesser casualties.

The more pixel sensors you have the more powerful your device becomes. Consequently, the smaller your pixel pitch becomes the stronger your device detects.But what is infrared radiation if you can’t measure it? It wasn’t until 1880 that the bolometer, an infrared radiation sensor, was invented giving man the ability to size up infrared. Seizing upon such a glorious opportunity, the military used the first thermal imaging devices after World War I. Specifically, these helped boost the anti-aircraft defenses of Great Britain in that war.

And that is why the invention of the bolometer matters. Bolometers, in simple terms, detect infrared radiation. It absorbs radiation and in the process increases its temperature according to the amount of heat received. In short, it’s a thermal detector.Thermal cameras are truly a work of wonder. First up, they’re not really cameras in the truest sense of the word. Note that the usual visible-light cameras, such as the ones you have on your smartphone, see the world as our eyes do: dependent on the presence of light. Thermal cameras, however, are more like sensors. They detect infrared radiation or what we normally call heat.

The higher the resolution the better is the ability of a thermal camera to detect heat differences in a target scene. At the heart of an infrared camera is the TPA or thermal pixel array. This is the infrared sensor which is actually a rectangular array of pixels. Pich (in microns) is the distance between the center of one pixel to the next pixel’s center.

Measured in milliKelvins or mK, a NETD usually has a value ranging from 50mK to 250mK. One with 50mK is capable of detecting subtle applications, say moisture issues, better than a thermal camera with 250mK.

Clearly, if you talk about seeing in the dark, a thermal camera would outmanoeuvre night vision technology. Thermal is your all-weather, all-terrain, round-the-clock heat detector that works without fail.Now, if you’re wondering why not use thermal camera technology for night vision? That’s a fair enough suggestion. And yes, it’s already happening. New generation technology night vision cameras are equipped with thermal imaging technology allowing them to see in complete darkness. Old-school NVGs are now slowly fading into the background.

Also, engineers developing ADAS (Advanced Driver Assitance System) are finding ways to incorporate thermal imaging technology into the equation. Already, we’ve seen how the technology has improved Automatic Emergency Braking or AEB to save lives. Factoring thermal cameras means safer roads ahead for self-driving cars no matter the weather.As thermal imaging technology can detect varying degrees of heat, it can alert rescuers of the presence of survivors. The human heat signature stands out like a sore thumb in the thermographic results. Additionally, it can help contain the fire faster as the device can identify the seat of the fire. Then, there’s the case for the sensors which also command a price. Add to all that, you have circuit boards and electronics that convert the electronic signals from the sensors into a readable output. What makes night vision “see through the dark” is image intensification. Using what’s called image intensifiers (military term) or image enhancers, night vision goggles (NVGs) amplify what little amount of reflected light is there at a dimly lit scene to get a better picture of the environment. That’s how you get those greenish pictures you see in the movies.Even better, thermal cameras can protect you. As a powerful surveillance device that works perfectly in daylight and at nighttime, these devices can ensure no unscrupulous individuals will disturb your precious abode even while you’re sleeping. Looking at all the things it can do for humans, a thermal camera is truly a treasure trove.

With nearly 164 million infected and over 3 million dead worldwide, the COVID-19 virus is giving everyone on the planet the scare of their lives. The solution long employed decades before other virulent epidemics happened on the planet is limiting people’s movement. The ability to detect fever, a known symptom, has therefore become a vital resource. It can help determine possible infected persons, curbing the spread of the virus in the process.Remember that everything on the planet emits infrared radiation. An object with a temperature of absolute zero may not emit any heat energy. However, such an object is just theoretical as absolute zero entails all atoms in the material to be standing perfectly still, an impossible feat. Thus, as different objects on the planet radiate varying degrees of infrared radiation, they will register different levels of heat in the thermal camera. But apart from being the go-to screening tool in most establishments today, thermal imaging technology is also deployed in the most powerful space exploration stations in the world. Thermography (the study of heat distribution in a region) via infrared imaging technology is used to determine the birth of stars, billions of miles away. Again, to know what’s best for you, you must first ascertain what exactly is the work you need to do. A thermal camera hobbyist won’t need as much resolution as an engineer in a manufacturing plant who wants to ensure the machinery is working fine and without a hitch.By the late 20th century, thermal cameras started to be part of mass culture. For one, Hollywood depicted the technology in Arnold Schwarzenegger’s movie blockbuster “Predator” in 1987. As a new century dawned, thermal cameras became much more affordable. Such a dip in price was made possible with smart IR sensors inside modern infrared imaging cameras.

A thermal imaging camera is powerful. It’s capable of detecting temperature variations up to 1/20th of a thermometer degree. That’s a feat impossible for human eyes.On the other hand, cooled thermal cameras are much more expensive. Plus, you’ll take longer to produce results as the device needs to be cooled every now and then. Thus, this type of thermal camera is not as popular as uncooled ones.

And there’s no tool quite like it. With thermal images generated, you get a detailed analysis of your material under observation in a jiffy. This is exactly why it took no less than the September 11, 2001 attacks – the deadliest terrorist threat to ever happen on American soil – for the country to see how crucial the role of thermal cameras is in a life-and-death situation.

Far-infrared waves are the ones we experience as heat. It’s thermal. When we feel the heat from sunlight or of fire, that’s far infrared. On the other hand, shorter infrared wavelengths do not display so much heat. You’ll consider them as not hot at all. A good example is the near-IR you find in the remote for your smart TV.The problem with NVGs is you would still need ambient light to come up with a picture. In total darkness as in a tunnel, night vision technology would utterly fail. Uncooled thermal cameras are bolometer-based. As they do not need to be cooled, these devices are as portable as you want them to be. So over the years, they’re a heavy favorite for a slew of professions, thanks to their lightweight nature. So long as you don’t need utmost heat-reading precision. Bear in mind that thermal cameras measure infrared radiation which carries longer wavelengths compared to visible light. Thus, it’s important that sensor elements also are larger compared to ordinary visible-light cameras.Thermal imaging technology is the right tool at the right time. By determining a person’s temperature from a distance, the device is the perfect choice to screen people. Thus, buildings and establishments all over American have made it a point to install the technology to safeguard their entrances.

The problem is taking the temperature with traditional methods can put you at risk. Being able to capture skin temperature without direct contact is therefore key. The sensor plate consists of charge-coupled devices that are connected to the circular assembly which houses a small infrared filter. Said filter ensures no infrared radiation stands in the way of a great picture. Slowly, practical use of the thermal camera sipped through the cracks. But it carried a heavy price. American firefighters, for one, started using the device in their engagements, allowing them to see through smoke and assess the situation better. However, as promising as these first-generation thermal cameras were, they were heavy and carried a less-than-friendly price tag.What’s important is the lens must allow infrared radiation to pass through and be captured by the thermal sensor. That’s why materials used for the lens are glasses made of zinc, selenide, germanium, or Chalcogenide. Ordinary glass, the one used in visible light cameras, cannot be used as glass can effectively block infrared radiation.

So if you’d like to know which is the more powerful technology, then the answer is thermal cameras hands down. Exactly why night vision technology is incorporating thermal camera technology in its arsenal.In retrospect, there is a checklist of points that should make TICs pricey. And we should understand that the materials alone in creating one are not your run-of-the-mill variety.To do that, the different changes of the temperature detected by the thermal sensor are converted into corresponding shades of grey. The resulting images represent hotter areas as lighter while cooler areas appear darker. The brighter the color therefore the hotter the object.

Sir William Herschel measured each of these colors and saw that heat increases from violet to red. What’s more, the German astronomer found out that there’s an invisible region after the red color that radiat
es even greater heat. That’s how infrared radiation (IR) or heat energy was discovered.Right off the bat, know that a thermal camera (as mentioned above) is not a camera in the strictest sense of the word. It’s a sensor — specifically, an infrared radiation sensor attached to a digital image converter. It detects photons of heat, generates a commensurate electrical output then digitizes said output for everyone to see.

Again, asking the right question from the onset is key. The question is not about what tool is more powerful rather it’s a question of what tool best fits the job at hand.

Needless to say, driving is one of the most complicated human endeavors. Anyone who says otherwise should take a look at over 30,000 fatal vehicle accidents that happen yearly in America. Now, allowing a machine to effectively navigate the road ahead is definitely a tall order. Machine learning will have to factor in a huge amount of data of the external environment to be able to navigate the streets.When firefighters rush to a scene, they are confronted with chaos. Proper assessment of the situation is an uphill climb as smoke, debris and the raging fire itself can obstruct the human view. Relying on bare eyes to locate a survivor or trace the seat of the fire can be next to impossible.Lest we forget, infrared detection technology is still largely being deployed by the military and police. Also, it must be noted that right after the 911 bombings, the use of handy thermal imaging technology has been widely adopted by firefighting units all over America buoyed by increasing government funding. Apart from that, thermal detection became a standard screening tool in the fight to contain the COVID-19 virus.Even better, a thermal camera comes with added features that make screening a lot more efficient. For one, you can’t beat the speed of thermal to detect skin temperature. Secondly, you can employ crowd detection for faster results. Just make sure you’re setting things right and deploying the right unit. For one,, you’ll have to remember a thermal camera isn’t actually a medical tool in the sense that it can’t detect the presence of disease or the virus for that matter.