||What to look for when considering a Thermal Camera
|The 2 most important specifications to consider when buying a thermal camera are resolution and thermal sensitivity.
Resolution is directly related to the number of pixels a camera possesses. The higher the number of pixels the higher the resolution and a high resolution results in a clear crisp image. Today there are three common resolution standards however if you are unsure about any of these standards one of customer service officers can point you in the right direction. The three most common resolution standards are:
• Low Resolution – ≤ 160x120 (19,600 pixels)
• Medium Resolution – 320x240 (76,800 pixels)
• High Resolution – 640x480 (307,200 pixels)
How much resolution you need is primarily determined by your application and by the quality of image you desire. Increasing the resolution is the most important consideration in improving image quality. The benefit of a higher resolution camera comes into play when you are looking to zoom into a scene and maintain good image quality. Such as high voltage electrical investigations when you are investigating wiring or transformers. With a low resolution camera the image will appear blurry and won’t provide the information you are looking to obtain. As you will see below with a high resolution camera you can zoom in on an area and still obtain highly accurate and clear images.
The second major issue that impacts image quality is thermal sensitivity. Thermal sensitivity basically defines the quality and clarity of the image as you increase image contrast ie. In the images below of a gentlemen’s face, in the first phase of the image 2b there is no real definition between the temperature changes as the thermal sensitivity increases the temperature becomes more defined so there is less blurring of the hot/cold boundaries. This is particularly well demonstrated in image 2d below. The smaller changes in temperature have been detected and displayed allowing for far more accurate temperature profiling.
Another important parameter which can be used to compare thermal cameras is NETD (noise equivalent temperature difference). NETD provides an objective measurement of camera thermal sensitivity where a lower NETD = Less noise and hence a sharper image. This is more apparent in low temperature contrast scenes like the image below. In 2b the image degrades when the span is less than 10°C and the image lacks detail compare this to 2d where the image remains clear even though the temperature differences are small.
For those customers looking to enter the market and get a start in thermography you really can’t go past the Flir i3 (call 1300 737 871 for more details). Whilst it may not have the resolution of higher end cameras it is able guide you to areas of electrical issues and is a much more versatile option than an Infrared Thermometer! The Flir range of products are manufactured in Wilsonville, Oregon, and the company also has manufacturing facilities in the USA along with Sweden and France and are of exceptionally high quality. This unit is an essential addition to any maintenance toolbox.
If you need a camera that can visualize problems in industrial maintenance and production monitoring before a malfunction or a fire risk occurs the ideal choice is the Testo 875-T1. Whether you are on the trail of energy loss in buildings, helping your customers to save expensive heating costs or ensure site security with its 120 x 160 resolution this camera will provide you with the results you are looking for.
The FLIR E60 (call 1300 737 871 for more details) is the top of the line in thermal cameras for identifying electrical, mechanical, or building envelope issues before a failure occurs or an expensive tear-down is required. This camera is best suited to high end applications were high quality results and images are of primary concern. It has a fast reaction time and is highly accurate over a wide temperature range and with its 320 x 240 resolution is ideal for applications where you need to zoom into a scene.