According to a technical note published, you can compare spot size ratio to an eye exam at the optometrist’s office. When looking at the eye chart from the exam room chair, you may be able to see that there are letters on the smallest line – but at what distance can you still read those letters? Those with 20/20 vision can determine the smallest letters at greater distances. In this analogy, 20/20 vision is compared to a high-resolution thermal imaging camera. To read the smallest letters, those who do not have 20/20 vision need corrective lenses or must move closer to the eye chart. The same is true for thermal imagers. Cameras are available with different lenses and resolution to allow for the most accurate temperature measurement based on the setting.
It is a number that tells you how far the camera can be from a target of a given size and still obtain accurate temperature measurement. Accuracy depends on getting as many pixels from the camera’s detector as possible onto your target. The higher the camera resolution, the more likely to get a greater number of pixels on a target from farther away with accurate results.
No. Higher resolution (or narrow field of view) is key.
You need to know some details about your application and the camera specs.
Size of the target area, or spot, you want to measure
How far away the camera will be (whether in a fixed position or held by a person)
Camera field of view (FOV)
Camera resolution
Once you have this information, you can do some calculations to determine the spot size ratio. Select the camera you are interested in. Then, click “FOV Calc.” for its spot size ratio.
Now you know the importance of spot size ratio. You have the understanding to ensure the thermal imaging camera you are considering is capable of accurately measuring temperature at the required distance. Whether for fixed system installation or a thermography survey using a portable camera, Viper experts will help ensure measurements are obtained from accurate measurement range.
This article is reproduced from VIPER IMAGING.