FLIR C2 Thermal Imaging Camera Description:
The FLIR C2 is a compact, lightweight, and ruggedly built thermal imager with a wide field of view (FOV) and high resolution. It features a 3-inch color TFT LCD monitor that provides live video feed from the camera’s sensor to your computer or other device. The FLIR C2 includes a USB port for connection to your PC via its included cable.
A microphone input allows you to record audio while using the camera. The FLIR C2 supports both NTSC and PAL modes. You can choose between 640x480p60 or 1280x720p30 video resolutions.
• Compact design fits easily into most places, including backpacks and briefcases!
• 3-inch color TFT LCD monitor
• NTSC and PAL video modes
• USB connection for direct download to your PC or Macintosh computer or other device
• Microphone input for audio recording
• USB recharging of included Li-Polymer battery pack (approximately 2.5 hrs of continuous recording)
• Weight: 7.5 oz. (213 g)
• Dimensions: 5.4 x 2.9 x 1.3 in.
(137 x 74 x 33 mm)
NOTE: This item has been built to U.S. electronics specifications and may need additional modifications or converters to be used in countries outside the U.S.
What is included:
FLIR C2 – 5.4 x 2.9 x 1.3 in.
(137 x 74 x 33 mm)
USB cable – 5 feet (1.5 m)
Li-Polymer rechargeable battery pack
Wrap-Around Lens Cap
User Manual on CD-ROM
FLIR C2 Thermal Imaging Camera Price: $1,995.00
Packing a whopping 640×480 (aka 0.3MP) resolution in a palm-sized package, the FLIR C2 is a great choice for a wide range of uses.
With the included addition of the FLIR FX add-on, you can even create time lapses and stop motion videos with your C2!
Most of all, the C2 is a great camera for you. It’s tough and easy to use, so you can focus on getting the shot rather than fiddling with settings. Using a target-assisted auto-exposure mode, the camera sets everything for you.
You just zoom in or out and pan left or right to look around – perfect for following fast-moving objects or recording an entire room.
The C2 includes a wrap-around lens cap and a durable, weather-resistant carrying case. It can be easily recharged via USB so you never need to worry about buying batteries, and can download images to your computer in just a few seconds.
Resolution: 0.3 megapixels (640×480)
Frame rate: 30fps at lowest resolution, 60fps at 320×240
Includes a wrap-around lens cap and durable, weather-resistant carrying case
Rechargeable battery can last for up to 2.5 hours of recording
USB rechargeable, no need to buy batteries
FLIR C2 Thermal Imaging Camera Manual:
Morecambe Camera is one of the only online camera stores in the UK that are stocking the FLIR C2. If you’re looking for a similar thermal imaging camera you might be interested in the new FLIR C3 or FLIR C4 cameras which offer much higher resolutions and faster frame rates. If you can wait a little while longer, FLIR will be releasing their new FLIR Tau thermal camera which promises to be the best of all worlds.
It combines the amazing image quality of the C3 with the super fast frame rates and temporal resolution of the C4.
Please visit our comparison page to see all of FLIR’s current cameras and their features or read on for our in-depth reviews!
As well as being a UK camera store, Morecambe Camera offers thorough and detailed reviews of all the latest thermal imaging cameras and accessories. Please see the links below for our latest reviews:
FLIR C2 Review – in-depth review of the newest member of the FLIR ONE family.
FLIR C3 Review – in-depth review of this high-performance, yet reasonably priced camera.
FLIR C4 Review – in-depth review of this high-frame-rate super-high-resolution thermal imager.
FLIR E8 Review – in-depth review of the FLIR E series of cameras, including the new E8.
FLIR T42 Review – in-depth review of the mid-priced FLIR T series offering.
What is a Thermal Camera? How does it Work?
You might be wondering what a thermal camera is and how it works, so this section is for you! If you already know what thermal imaging is and just want to know which one is best for you, skip this section.
Infrared or Thermal Imaging
We see using light what our eyes and brain believe to be the world around us. Infrared thermal imaging cameras work on a completely different principle. Using thermography to see objects that the eye cannot, these cameras detect the heat (infrared radiation) which is given off naturally by all objects and organisms.
While you would be able to see the difference between a person and a tree when looking at both with your eyes in the day, at night they would both appear dark. Due to their similar temperatures. While you are unable to see anything at night with your eyes, a thermal imaging camera would be able to spot both the person and the tree. The tree, while dark like the person, is still giving off infrared radiation due to its temperature, whereas the person is much cooler and so appears bright due to their higher temperature.
The technical name for this ability to see objects based on their temperatures is thermography. While the temperature of an object doesn’t tell us everything – for example, a human can have a higher temperature than a rock but we know the rock is still a rock and the human is still human – it does allow us to see some things that our eyes and brain cannot. This is a large part of what makes a thermal imaging camera so powerful and popular.
The Main Types of Thermal Imaging Cameras
Infrared (IR) cameras operate on the same fundamental principle as discussed above, that being the detection and recording of infrared radiation given off by objects. The main difference is that an IR camera records this radiation directly rather than having it converted into a viewable image like in the case of a thermal imaging camera. Due to this difference, Thermal imaging cameras tend to be more expensive but offer higher quality images and better functionality overall.
The next section details some of the pros and cons of the major types.
Types of Thermal Imaging Cameras
IR – Infrared cameras, as mentioned above, operate using the same technology as your eyes. They detect the difference in temperature between objects and display this on a screen or record it directly for later viewing. These cameras are cheaper than thermal imaging cameras due to their lack of functionality but can still be used to great effect.
Thermal Imaging (TI) – As the name suggests, these cameras detect and visualise the temperature of objects to create a visible image on a screen. These cameras are generally more expensive than regular IR cameras but offer much better functionality due to their interactive screens and various other features.
Multi-Sensor – As the name suggests, these cameras use more than one detection method to create images. This usually means an IR and TI combination but can also include things such as Radars. While these cameras tend to be more expensive than regular IR cameras, they offer a much wider range of uses and applications.
How to Buy the Best Thermal Imaging Camera
As mentioned before, not all thermal imaging cameras are the same and as such you will need to do your research before spending any money. The following factors are important to consider when buying a camera of this type:
Resolution – This is perhaps the most important factor, especially if you intend on using the camera for scientific research or something similar. While resolution goes hand in hand with price, it is always better to spend more to get a higher resolution camera if you need it.
Additional Features – In addition to resolution, you will also have to take into consideration what additional features the camera has. These features can range from light sensitivity to the presence of a screen for direct viewing. Depending on what you intend to use the camera for, some additional features may be more or less useful than others.
Durability – As with most things, cameras also come in various levels of durability. While most are sturdy enough to survive normal use, some are not and will break easily. If you need a camera with high durability, be prepared to spend more as this quality tends to come at a higher price.
Price – As with most products, the cheapest ones generally aren’t the best and the most expensive ones aren’t always the best either. You will need to find the sweet spot where quality and price meet. If you do your research, this shouldn’t be too hard.
After a great deal of research, our choice for the best thermal imaging camera is the FLIR A65. This camera offers a crisp resolution of 320 x 240 at a very good price. While it may not be the highest resolution available, its price to quality ratio is very good and it has a lot of additional features, such as an LCD screen for direct viewing.
Its durability could be better, but it’s sturdy enough to survive everyday use.
If the FLIR A65 is sold out or you just don’t want to spend that much money, then we recommend the Gunther GMAC670 as a great alternative. It has a very good price and while the resolution of 86 x 52 isn’t amazing, it’s good enough for most people and the price more than makes up for it.
Most people don’t know how to properly use a thermal camera and as such these can go unused for years or even discarded. With a thermal imager, you can see the invisible world all around you and with some practice, you can easily learn how to use one of these. We hope that our reviews and advice have helped you learn more about this technology and that you now know what to look for when buying a good thermal camera for your own use.
Sources & references used in this article:
- Infrared technology for estrous detection in Chinchilla lanigera (M Polit, A Rząsa, W Rafajłowicz, W Niżański – Animal reproduction science, 2018 – Elsevier)
- Automatic bruise detection in fruits using thermal images (M Satone, S Diwakar, V Joshi – International Journal, 2017 – researchgate.net)
- Comparison between near-infrared fluorescence imaging with indocyanine green and infrared imaging: on-bench trial for kidney perfusion analysis. A project of … (G Basile, A Breda, J Gomez Rivas… – Minerva Urol …, 2019 – researchgate.net)
- Infrared cameras in science education (J Haglund, F Jeppsson, E Melander… – Infrared physics & …, 2016 – diva-portal.org)
- Thermal diffusivity imaging (T Gfroerer, R Phillips, P Rossi – American Journal of Physics, 2015 – aapt.scitation.org)
- IoT Based Solar Panel Analysis using Thermal Imaging (UK Phoolwani, T Sharma, A Singh… – 2020 IEEE International …, 2020 – ieeexplore.ieee.org)
- Thermal image enhancement through the deconvolution methods for low-cost infrared cameras (F Lai, J Kandukuri, B Yuan, Z Zhang… – Quantitative infrared …, 2018 – Taylor & Francis)
- Thermal imaging cameras: characteristics and performance (T Williams – 2009 – books.google.com)