Thermal Infrared Camera Buyers Guide - Teslong

Sep. 08, 2025

Thermal Infrared Camera Buyers Guide - Teslong

A comprehensive guide to purchasing a thermal infrared camera for various applications

Thermal infrared cameras, also known as thermal imaging cameras, are specialized devices used to detect and capture images of the infrared radiation emitted by all objects - even living animals and humans. This technology works by detecting the heat energy that radiates from objects in the form of infrared radiation, which is invisible to the naked eye.

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Infrared imaging cameras are used in a wide range of applications, including home and building inspection, electrical and mechanical inspection, firefighting, search and rescue operations, law enforcement and security, wildlife observation, and medical imaging.

The cameras detect temperature differences and create images using color palettes that represent the temperature variations. These images can be displayed in real-time on a screen or recorded for later analysis.

Thermal infrared cameras are highly accurate and reliable, allowing for the detection of defects, anomalies, or hidden problems in those objects. They are also highly useful in situations where visibility is limited, such as in smoke, darkness, or harsh weather conditions.

Infrared thermal cameras are available in various models with different features, including resolution, field of view, temperature range, and sensitivity. They are also available in handheld and mounted configurations, with additional accessories to enhance their functionality.

Key features to consider when purchasing a thermal infrared camera

Temperature range: The temperature range refers to the minimum and maximum temperatures that the camera can measure accurately. It is important to select a camera with a range that suits the intended application.
Thermal sensitivity: Thermal sensitivity refers to the smallest temperature difference that the camera can detect. A camera with higher sensitivity can detect smaller temperature differences, making it more accurate.
Resolution: Resolution refers to the number of pixels in the image, and higher-resolution cameras produce clearer and more detailed images.
Field of view: Field of view refers to the area of the scene that the camera can capture. A wider field of view is useful for capturing larger scenes, while a narrower field of view is better for more detailed analysis.
Image and video recording: Cameras that can record both images and videos can provide more detailed analysis and documentation.
Battery life: The battery life of the camera is an important consideration, especially for field use.
User interface: A user-friendly interface can make it easier to operate the camera and access its various features.
Portability: The size and weight of the camera can affect its portability, making it easier or harder to transport and use in different settings.

Considerations Before Buying a Thermal Infrared Camera

Budget - The budget for purchasing a thermal infrared camera can vary depending on the intended application and the level of features and capabilities required. Thermal infrared cameras can range in price from a few hundred dollars for entry-level models to tens of thousands of dollars for high-end professional cameras.

When determining the budget for an infrared thermal camera purchase, it is important to consider the intended application and the level of accuracy and detail required. Cameras with higher resolution and sensitivity may be more expensive but may be necessary for certain applications, such as medical imaging or advanced research.

It is also important to consider the level of support and training offered by the camera manufacturer or distributor. Cameras with comprehensive manuals and training programs may be more expensive but can help to improve the user experience and efficiency of the camera.

Finally, it is important to consider the overall value of the camera and the potential return on investment. Investing in a higher quality camera with greater accuracy and durability may result in cost savings in the long term, as it can reduce the need for repairs or replacement, and improve the accuracy and efficiency of inspections or research.

Resolution - Resolution is a key specification to consider when choosing a thermal infrared camera. It refers to the number of pixels in the camera's image sensor and is an indicator of the level of detail that the camera can capture.

Higher-resolution cameras produce clearer and more detailed images, which can be important for certain applications where small temperature differences or anomalies need to be detected.

Resolution is typically measured in pixels (horizontal x vertical) and can range from as low as 80x60 pixels to as high as 640x480 pixels or more. However, higher-resolution cameras tend to be more expensive and require more processing power to analyze the captured images.

It is important to note that the resolution of a camera is not the only factor that determines the level of detail in an image. Other factors, such as the quality of the lens and detector, the thermal sensitivity of the camera, and the level of noise reduction applied to the image, can also affect image quality.

Imaging and Video Recording - Image and video recording capabilities are important features to consider when selecting an infrared imaging camera. The ability to record images or videos of the captured thermal data can be useful for documentation, analysis, and reporting purposes.

Many heat infrared cameras come with built-in memory or have the ability to store data on external memory cards or USB drives. Some cameras also can stream live video or data directly to a computer or mobile device.

When it comes to image and video quality, cameras can vary in their capabilities. Some cameras may have the ability to capture higher-resolution images or videos, while others may have the ability to capture higher frame rates for smoother video playback.

It is important to note that the size of the memory or storage capacity of the camera can affect the length of the recording time. Additionally, the type of file format used for recording can affect the amount of storage space required and the ease of use for analyzing or sharing the recorded data.

Brand and Reputation - When considering an infrared thermal camera purchase, it is important to take into account the brand and reputation of the manufacturer. The brand reputation can indicate the quality of the camera, the level of customer support provided, and the overall reliability of the product.

There are several well-known brands in the thermal infrared camera market, including FLIR Systems, Testo, Seek Thermal, and FLUKE. These companies have a strong reputation for producing high-quality, reliable cameras that are used in a wide range of applications.

Brands like Teslong are new to the market, but build high-quality products with many features of higher-priced brands. Teslong may not be as well known, but they have a history of building reputable goods for sale on Amazon and their website with many positive reviews and excellent customer support.

When considering a specific brand, it is important to research its customer support services, including warranties, technical support, and training programs. The level of customer support provided can be a good indicator of the quality of the camera and the commitment of the manufacturer to its customers.

In addition, it can be helpful to read customer reviews and ratings of the product. This can provide insights into the user experience, including ease of use, accuracy, and reliability of the camera.

Customer Support and Warranty - Customer support and warranty are important factors to consider when purchasing an infrared imaging camera. These factors can help ensure that the camera performs as expected and is backed by the manufacturer in case of any issues or defects.

Customer support services can include technical support, training programs, and repair services. It is important to choose a manufacturer that offers comprehensive customer support services to ensure that the camera is easy to use and that any issues can be resolved quickly and efficiently.

Warranty is another important factor to consider when purchasing an infrared thermal camera. A warranty protects against any defects or issues with the camera for a specified period. The length of the warranty can vary depending on the manufacturer and model of the camera, but it is generally recommended to choose a camera with a warranty of at least one year.

It is important to read the terms and conditions of the warranty carefully to understand what is covered and what is not covered. Some warranties may exclude certain types of damage, such as damage caused by misuse or accidents.

In addition to the warranty, some manufacturers may offer extended warranty or maintenance plans for an additional fee. These plans can provide additional protection and peace of mind for the user.

Teslong offers a 1-year warranty for their products to be free of defects caused by the manufacturer. You can also call Teslong customer service during business hours (PST) to ask them any questions about their product and they will be happy to assist you.

Accessories - There are several accessories and add-ons available for thermal infrared cameras that can enhance their performance and functionality. Some popular accessories include:

Tripods and mounts: These accessories allow the camera to be mounted on a stable surface, providing a steady image and reducing operator fatigue.
External power sources: These can extend the battery life of the camera and provide additional power for extended use.
Lenses: Different lenses can be attached to the camera to adjust the field of view, allowing for more flexibility in different applications.
Software: Some manufacturers offer software that can enhance the analysis and interpretation of the images and videos captured by the camera.
Carrying cases: These protect the camera during transport and storage and can make it easier to carry the camera on the go.
Radiometric data logging: This accessory can provide accurate temperature readings and can be used to track temperature changes over time.
Remote control: Some cameras come with remote control accessories that allow for hands-free operation, providing greater flexibility and ease of use.

When considering accessories and add-ons for an infrared imaging camera, it is essential to choose accessories that are compatible with the specific camera model and meet the requirements of the intended application. Choosing the right accessories can help enhance the performance and usability of the camera, and provide greater flexibility and convenience for the user.

Types of Thermal Infrared Cameras

There are several types of infrared thermal cameras available on the market, each with its own unique features and capabilities. The most common types of heat infrared cameras include:

Handheld cameras: Handheld cameras are portable and easy to use, making them ideal for a variety of applications such as building inspections, electrical and mechanical inspections, and HVAC diagnostics.
Fixed-mounted cameras: Fixed-mounted cameras are typically used for continuous monitoring of large areas or processes, such as in industrial manufacturing and process control applications.
Pan-tilt-zoom (PTZ) cameras: PTZ cameras are motorized and allow for remote control of the camera's movements, providing greater flexibility and versatility for surveillance and monitoring applications.
Optical gas imaging (OGI) cameras: OGI cameras are designed specifically to detect and visualize gas leaks, making them ideal for use in the oil and gas industry, chemical plants, and other industrial applications.
Aerial cameras: Aerial cameras are mounted on drones or aircraft and can be used for aerial inspections, surveillance, and monitoring.

Each type of camera has its own advantages and limitations, and the choice of camera will depend on the specific application and requirements.

Technical Specifications to Consider

Thermal Sensitivity - Thermal sensitivity is an important specification to consider when choosing an infrared imaging camera. It refers to the smallest temperature difference that the camera can detect. The sensitivity is measured in units of temperature difference (in degrees Celsius or Fahrenheit) per unit of infrared radiation received by the camera (typically milliKelvins or mK).

For example, a camera with a thermal sensitivity of 50mK can detect a temperature difference of 0.05°C between two objects. A camera with higher sensitivity will be able to detect smaller temperature differences, making it more accurate and useful in applications that require precise measurements.

Thermal sensitivity can be affected by various factors, such as the quality of the camera's detector, lens, and electronics, as well as the level of ambient temperature and humidity. As a result, different cameras may have different levels of sensitivity even if they have the same resolution or temperature range.

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Temperature Range - The temperature range of a heat infrared camera is the minimum and maximum temperature that the camera can measure accurately. This range is typically specified by the manufacturer and is an important consideration when selecting a camera for a specific application.

Most infrared thermal cameras have a temperature range that spans from -20°C to 120°C or higher, with some specialized cameras capable of measuring temperatures as high as °C or as low as -50°C. However, the temperature range of a camera may vary depending on the model and brand.

Field of view - Field of view (FOV) is an important specification to consider when selecting an infrared imaging camera. It refers to the area of the scene that the camera can capture.

FOV is typically measured in degrees and can range from as narrow as 9 degrees to as wide as 60 degrees or more. A wider FOV is useful for capturing larger scenes or objects, while a narrower FOV is better for a more detailed analysis of smaller objects.

It is important to note that the FOV of a camera can also affect the camera's spatial resolution. A narrower FOV can provide higher spatial resolution for smaller objects or features, while a wider FOV can provide a lower spatial resolution but can capture larger areas.

Some heat infrared cameras have interchangeable lenses, which allow the user to switch between different FOVs depending on the application. This can be useful when the user needs to switch between close-up analysis and capturing larger scenes.

Image Refresh Rate - Image refresh rate is an important factor to consider when shopping for a thermal infrared camera. The refresh rate determines how quickly the camera updates the thermal image displayed on the screen. A higher refresh rate means that the camera can capture and display changes in temperature more quickly, providing a smoother and more accurate representation of the thermal image.

In applications where there is movement or rapid changes in temperature, such as in electrical or mechanical inspections, a higher refresh rate is critical to capture and analyze the thermal image accurately. A lower refresh rate can lead to blurring or distortion of the image, making it difficult to identify and diagnose potential issues.

However, a higher refresh rate often comes at a cost of increased power consumption, which can impact the battery life of the camera. It is important to balance the need for a high refresh rate with the practical limitations of the camera, such as battery life and budget.

Overall, the image refresh rate is an important consideration when choosing an infrared imaging camera, especially for applications that require real-time monitoring and analysis of thermal images.

Lens Options - Some of the common lens options for thermal infrared cameras are:

Fixed lenses: These lenses have a fixed focal length and are suitable for applications where the distance to the object being measured is constant.
Zoom lenses: These lenses have adjustable focal lengths and can be used to change the magnification and field of view of the camera. This makes them suitable for applications where the distance to the object being measured may vary.
Macro lenses: These lenses are designed for close-up imaging and can be used to measure the temperature of small objects or features.
Telephoto lenses: These lenses have a long focal length and narrow field of view, making them suitable for applications where the object being measured is far away.
Wide-angle lenses: These lenses have a short focal length and wide field of view, making them suitable for applications where a larger area needs to be imaged.
Fisheye lenses: These lenses have a wide field of view and are suitable for applications where a panoramic view is required.

Choosing the right lens for an infrared imaging camera is important, as it can impact the accuracy and resolution of the temperature measurements. Factors such as the distance to the object being measured, the size of the object, and the required level of detail will all influence the choice of lens.

Display Options - Some of the common display options for heat infrared cameras are:

Monochrome LCD displays: These displays provide a black-and-white image, which can be easier to interpret in some applications. They are typically less expensive than color displays.
Color LCD displays: These displays provide a color image, which can make it easier to identify different temperature ranges or areas of interest in the image.
Touchscreen displays: These displays allow the user to interact with the camera and adjust settings or analyze data directly on the screen. They are often used in more advanced applications.
High-resolution displays: These displays provide a higher level of detail and resolution, which can be useful for applications where a high degree of accuracy is required.
Wireless display options: These displays allow the user to remotely view the image and control the camera from a distance. This can be useful in applications where the camera needs to be mounted in a difficult-to-reach location.
Video output: Some infrared imaging cameras offer video output capabilities, which can be useful for recording or streaming the thermal image to another device.

Factors such as the level of detail required, the need for color or monochrome images, and the need for remote viewing or control will all influence the choice of display option.

Measurement Modes - There are several measurement modes that are commonly used in thermal infrared cameras, including:

Spot measurement mode: In this mode, the camera measures the temperature of a small spot on the object being observed. The size of the spot can usually be adjusted.
Area measurement mode: In this mode, the camera measures the temperature of a larger area on the object being observed. The size of the area can usually be adjusted.
Line measurement mode: In this mode, the camera measures the temperature along a specific line on the object being observed. This mode is often used to measure the temperature profile of a surface or to detect temperature gradients.
Isotherm measurement mode: In this mode, the camera displays areas of the image that are above or below a specific temperature threshold. This mode is useful for identifying areas of interest in the thermal image.
Delta temperature measurement mode: In this mode, the camera displays the temperature difference between two points on the object being observed. This mode is useful for detecting temperature gradients and identifying areas of interest where there are temperature differences.

These different measurement modes can be useful in different applications, depending on the specific requirements of the task at hand.

Common Applications of Thermal Infrared Cameras

Thermal infrared cameras are versatile tools that have a wide range of applications in various industries and fields. Some of the key applications of heat infrared cameras include:

Building inspections: Thermal infrared cameras can be used to identify areas of heat loss or moisture intrusion in buildings. This can help to improve energy efficiency, identify potential structural issues, and prevent mold growth.
Electrical inspections: Thermal infrared cameras can be used to identify hot spots in electrical systems, which can indicate potential issues with equipment and help to prevent electrical fires.
Mechanical inspections: Infrared imaging cameras can be used to identify areas of excess friction or heat in mechanical systems, which can help to prevent equipment failure and improve efficiency.
Medical imaging: Thermal infrared cameras can be used for non-invasive medical imaging, such as identifying areas of inflammation or nerve damage.
Wildlife Research: Thermal infrared cameras can be used to monitor wildlife populations and behavior, as well as to track and locate animals in the wild.
Firefighting: Thermal infrared cameras can be used by firefighters to identify hot spots and locate victims in smoke-filled environments.
Security and surveillance: Infrared imaging cameras can be used for perimeter security and surveillance, as they can detect movement and heat signatures in low-light or dark environments.
Agriculture: Heat infrared cameras can be used to monitor crop health and irrigation, as well as to detect pests and diseases in plants.

Overall, the wide range of applications for thermal infrared cameras makes them a valuable tool for many different industries and fields.

Shop Teslong Thermal Cameras

In summary, when choosing the best heat infrared camera to buy, there are several important factors to consider. First, it's important to consider the specific application that the camera will be used, as this will influence the required resolution, accuracy, and temperature range of the camera.

Next, consider the available features of the camera, such as the type of detector, lens options, display options, and measurement modes. Choose features that will meet the requirements of the application and allow for the most accurate and efficient use of the camera.

Other factors to consider include the size and weight of the camera, as well as its durability and ruggedness. This is particularly important if the camera will be used in harsh environments or if it needs to be portable.

Finally, consider the cost of the camera, as well as the availability of technical support and training. Choose a camera that fits within your budget, but also provides the necessary features and support to get the job done.

Top 10 Things To Consider Before Buying An Infrared Camera

An infrared camera, also known as an IR camera, is an invaluable piece of equipment that utilizes infrared thermographyto measure the temperature of an object surface. Infrared thermography is a passive imaging method for contactless temperature measurement. Use of an infrared camera is especially useful for preventative maintenance tasks in a facility, as it allows you to identify potential issues that exist behind structure walls, HVAC components, and within machinery.

#1: BUY AN INFRARED CAMERA WITH THE HIGHEST DETECTOR RESOLUTION/IMAGE QUALITY THAT YOUR BUDGET ALLOWS.

The higher the image resolution, the better the image quality. Most infrared cameras have fewer pixels than visible light cameras, so pay close attention to detector resolution. Higher resolution infrared cameras can measure smaller targets from farther away and create sharper thermal images, both of which add up to more precise and reliable measurements. Also be aware of the difference between detector and display resolution. Some manufacturers will boast about a high resolution LCD and hide their low resolution detector when it’s the detector resolution that matters most. For instance, LCD resolution may spec at 640 × 480, capable of displaying 307,200 pixels of image content. But if the IR detector pixel resolution is only 160 × 120 (19,200) pixels, then the greater display resolution accomplishes absolutely nothing because the quality of the thermal image and its measurement data are always determined by the detector resolution. Higher resolution thermal imaging not only provides more accurate quantitative results, it can be very effective in showing findings in finer detail to customers, supervisors, repair crews, and insurance companies which can help move along the decision-making process for improvements and repairs. Superior IR image quality is also valuable for generating clearer reports and for marketing your services.

#2: NEED TO PRESENT YOUR FINDINGS? FIND A SYSTEM WITH A BUILT-IN VISIBLE-LIGHT CAMERA OUTFITTED WITH AN ILLUMINATOR LAMP AND A LASER POINTER.

There’s no need to carry a separate piece of equipment to take photos when many affordable IR cameras now include a built-in digital camera that simultaneously captures visible light and thermal images. Digital photos that correspond to your IR images will help you further document a problem and communicate its precise location to decision-makers. So, if your customer or supervisor needs to see a comprehensive report, you’ll definitely want a thermal imaging camera with this feature. And be sure it includes an onboard lamp that doubles as a flashlight to illuminate darker areas. Built-in laser pointers are also invaluable, especially for isolating the location of a target surrounded by similar-looking components, such as breakers, or for pinpointing problematic energized electrical equipment where you need to keep your distance. Laser markers show up clearly on visible light pictures to provide a reliable reference. They’re also indicated on IR images as well as the thermal camera’s display so you’ll be confident you’ve captured all the necessary information.

#3: SELECT A CAMERA THAT DELIVERS ACCURATE AND REPEATABLE RESULTS.

Infrared cameras don’t just let you see differences in heat, they let you measure those differences, which means the accuracy and consistency of the measurements is a very important factor when determining the value of a camera. For best results, look for a thermal imager that meets or exceeds ± 2% (or 3.6°F) accuracy. In order to produce correct and repeatable results, your thermal imager should include in-camera tools for entering both “emissivity” and “reflected temperature” values. An infrared camera that gives you an easy way to input and adjust both of those parameters will produce the accurate temperature measurements you need in the field to make the best call. Other helpful diagnostics to consider are multiple moveable spots and area boxes for isolating and annotating temperature measurements that can be saved as radiometric data and incorporated into findings for reports. As you become more experienced with your infrared camera, these features will become more meaningful. But before you proceed with your buying decision, find out whether the thermal imager you like offers these capabilities.

#4: LOOK FOR AN IR CAMERA THAT STORES AND OUTPUTS STANDARD FILE FORMATS THAT ARE BROADLY SUPPORTED.

Many infrared cameras store images in a proprietary format that can only be read and analyzed with specialized software. Others have an optional JPEG storage capability that lacks temperature information. Some cameras feature composite video out for cabling to digital recorders while others include HDMI outputs. Mobile applications have also been developed that allow streaming video over Wi-Fi. All these capabilities will help you share findings more effectively and enhance your infrared inspections and reports.

#5:CONSIDER THE ADDED VALUE OF AN IR CAMERA THAT LINKS TO BLUETOOTH-ENABLED T&M METERS FOR ASSESSING ELECTRICAL LOAD AND MOISTURE LEVELS.

New test and measurement tools allow certain thermal cameras to measure more than temperature to fully quantify the severity of moisture damage and electrical issues. These moisture and clamp meters wirelessly transmit vital diagnostic data such as humidity, amperage, voltage, and resistance directly to the camera. The data is annotated automatically to the thermal image and embedded in the radiometric JPEG to add support to findings. This provides extremely valuable information to help you determine the urgency of a problem and decide on the best solution.

#6: WI-FI APPS FOR MOBILE DEVICES STREAMLINE THE SHARING OF THERMAL IMAGES AND DATA: SELECT A CAMERA COMPATIBLE WITH THIS TECHNOLOGY.

It’s now possible to connect many infrared cameras via Wi-Fi to smartphones and tablets. This allows users to import IR images to the mobile device for portable analysis, report generation, and sharing. The advantage of being able to send thermal images and IR inspection reports wirelessly from one part of a facility to another or by from the field is huge when time is of the essence. The app also allows live streaming video for customers and co-workers to view inspections from a safe, convenient distance.

#7: MAKE SURE YOU GET A CAMERA WITH THE ERGONOMIC FEATURES THAT MAKE YOUR JOB AS EASY AS POSSIBLE TO MATCH THE WAY YOU LIKE TO WORK.

The camera’s weight can be a significant concern if you’ll be using it frequently or for extended periods of time. A lighter thermal camera will decrease strain on your shoulder and back during long inspections. A wide selection of compact, light point-and-shoot thermal cameras are available at surprisingly affordable prices and fit nicely into tool boxes and utility belts and pouches. Another important thing to consider is the camera’s interactive controls. Does it have dedicated buttons, direct access menus, both? A few extra simple buttons that are intuitively positioned can actually make the camera easier to use as opposed to relying on one button to step through menu options. Some cameras offer integrated touch screens as another advantageous way to access functions and features, including text and sketch notations. And make sure your camera is outfitted with at least two batteries (Lithium ion or better) that can be quickly and easily switched out in the field so you can keep working efficiently.

#8: THERMAL IMAGE ENHANCEMENT AND PICTURE-IN-PICTURE (P-I-P) WILL ALLOW YOU TO COMBINE THERMAL AND VISIBLE-LIGHT IMAGES FOR GENERATING REPORTS THAT ARE EASIER TO UNDERSTAND.

Options that allow visible spectrum details (ie: numbers, labels, and signage) are often available. P-i-P is another onboard mode that can be used for clearer documentation, allowing thermographers to inset a thermal image over its corresponding visible-light photo. Both choices help better-communicate the location of a problem to customers, colleagues, and repair crews.

#9: NOT ALL REPORTING SOFTWARE PRODUCTS ARE CREATED EQUAL: BE SURE TO TRY OUT THE PRODUCT FIRST TO FIND THE ONE THAT’S RIGHT FOR YOU.

Reporting is an indispensable feature in an infrared program or business. Clients, from individual home owners to large corporations, require documentation of your findings. Thermal image and report data can be a key element in a wide range of applications: energy audits, electrical inspections, gas detection surveys, building envelope analyses, and predictive maintenance programs. They’re often used to initiate insurance claims and substantiate restoration repairs. Today, most infrared cameras come with free software that allows you to perform basic image analysis and to create simple reports. Advanced software for more in-depth analysis and customizable reports is also available, allowing you to take full advantage of your camera’s capabilities and features. Some thermal imagers allow the generation of instant reports right in the camera and/or using an app on mobile devices connected to Wi-Fi enabled cameras. IR analysis software can perform a wide range of tasks from simple spot measurements to custom radiometric calibrations. Many thermal imaging manufacturers and third party providers also offer software packages designed for a range of specific applications – from building inspection to advanced research and development. Investigate these tailored software programs to see which may make the most sense for your business.

#10: CHOOSE A THERMAL IMAGER WITH A WIDE TEMPERATURE RANGE SO YOU CAN MEASURE AMBIENT AND HIGH-TEMPERATURE SPOTS IN THE SAME IMAGE.

An infrared camera’s temperature range and sensitivity are important considerations, too. The range tells you what the minimum and maximum temperatures are that the camera can measure (-4°F to 2,192°F is a typical example). Select an IR camera with a temperature range broad enough to capture all of the temperatures of the objects or scenes you typically encounter. Sensitivity shows you the smallest temperature difference between two objects that the camera can discern (0.045°C, for example). The more sensitive the detector, the subtler the details you’ll be able to see, which can be especially helpful when inspecting for moisture intrusion and other heat issues with minute temperature variations.

NEED ASSISTANCE SELECTING A THERMAL CAMERA?

Contact an A&M Industrial representative for more help selecting the right infrared camera for your application. Ask about our selection of thermal imaging equipment from Fluke, Klein Tools and ICI. Rely on A&M Industrial for a wide range of mill supplies, including power tools, tool wrap, lubricants and more.

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Provides high quality 256 x 192 thermal images in rich details.
Provides a wide temperature range measuring from -20 °C to 550 °C (-4 °F to °F), with an accuracy of ± 2°C (± 3.6 °F) or ± 2%.
11 hours of battery life ensures the T-Cam 300 meets time requirements of inspections.
ICI Dual Vision to overlay visible and thermal images with color palettes to enhance viewing.