What You Need to Know About the Thermal Lens of the Hikvision DS-2TD2628-10/QA Network Thermal Camera

Question:

I am working on a project that involves a thermal imaging component from a Hikvision network thermal camera. The model number of the camera is DS-2TD2628-10/QA. I would like to know more about the specifications and features of the thermal imaging component, such as the sensor type, resolution, frame rate, etc. However, I could not find any datasheet or documentation for this component online. Do you have any information or resources that could help me identify this component? Unfortunately, I cannot share any pictures of the component due to the community rules.

Answer:

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> If you are working on a project that involves a thermal imaging component from a Hikvision network thermal camera, you might be interested in knowing more about its specifications and features. However, finding the datasheet or documentation for this component online can be challenging, as Hikvision does not provide much information on their website. In this article, we will try to help you identify the thermal imaging component of a Hikvision network thermal camera DS-2TD2628-10/QA, based on some clues and sources that we have found. >
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The camera model

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> The first thing to know is the camera model that you are dealing with. The Hikvision network thermal camera DS-2TD2628-10/QA is part of the HeatPro series, which is designed for perimeter protection and fire prevention applications . The camera has a dual-lens design, with a thermal lens and an optical lens, which can provide both thermal and optical bi-spectrum images . The camera also supports video analysis and deep learning algorithms for high precision detection and real-time alarm . >
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The thermal imaging component

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> The thermal imaging component of the camera is the thermal lens, which is responsible for capturing the infrared radiation emitted by objects and converting it into a thermal image. The thermal lens is located on the left side of the camera, as shown in the picture below: >
> ![Thermal lens] >
> The thermal lens has a focal length of 9.7 mm, which gives a horizontal field of view of 37.2° and a vertical field of view of 28.3°. The thermal lens has a resolution of 384 x 288 pixels, which means that it can capture 110,592 pixels of thermal information. The thermal lens has a frame rate of 25 fps, which means that it can produce 25 thermal images per second. The thermal lens has a temperature range of -20°C to 150°C, which means that it can measure the temperature of objects within this range. The thermal lens has a sensitivity of less than 40 mK, which means that it can detect very small temperature differences. >
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The identification method

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> To identify the thermal imaging component of the camera, you can use the following method: >
> – Look for the thermal lens on the left side of the camera, as shown in the picture above. > – Check the focal length of the thermal lens, which should be 9.7 mm. > – Check the resolution of the thermal lens, which should be 384 x 288 pixels. > – Check the frame rate of the thermal lens, which should be 25 fps. > – Check the temperature range of the thermal lens, which should be -20°C to 150°C. > – Check the sensitivity of the thermal lens, which should be less than 40 mK. >
> If all these parameters match, then you have successfully identified the thermal imaging component of the camera. >
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The sources and resources

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> To find more information and resources about the thermal imaging component of the camera, you can refer to the following sources: >
> – The datasheet of the camera, which provides the technical specifications and features of the camera. > – The product page of the camera, which provides the overview and description of the camera . > – The online store of the camera, which provides the price and availability of the camera. >
> We hope that this article has helped you identify the thermal imaging component of a Hikvision network thermal camera DS-2TD2628-10/QA. If you have any questions or feedback, please feel free to leave a comment below. Thank you for reading! 😊

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