![]() Ever since you found out that the characters you knew and loved became self-aware, which was probably a glitch but whatever, there were no characters for you to control only for you to chat to and walk alongside. She smiled and looked directly into your camera, you had spawned here for a reason. #Boson x cubfan135 serial#Image Metric Feature (enables users to query the camera for scene temperature data via serial command, such as maximum, minimum, and standard deviation for user-defined regions).Yae Miko was just chilling at the Grand Narukami Shrine when she heard the familiar sound of a certain genshin player logging in.Temperature precision (allows external scene parameters to be compensated for emissivity– a measure of the efficiency of a surface to emit thermal energy relative to a perfect blackbody source– and window transmission, to more accurately determine temperature).Detailed temperature information (users derive temperature information per pixel from objects in the scene).Digital data linear in scene temperature (in real-time operation, the pixel values in the digital data correspond to the temperature of the scene).Additional spot-meter data (average, standard deviation, minimum, and maximum value).Moveable and resizable spot-meter (coordinates can be user-selectable to any location on the array). #Boson x cubfan135 full#Improved accuracy (typical performance on the order of +5 Co or 5% in high-gain state, varying slightly across the full operating temperature range).Some of the benefits of advanced radiometric cameras include: #Boson x cubfan135 software#Radiometric accuracy provides ±5 ☌ (☘ ☏) or ±5% temperature measurement accuracy and include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. In practice, radiometric error prevents an output which corresponds perfectly with scene temperature. For example, expected output in high-gain state when imaging a 20C BB is * 100 = 29315. In high-gain state, the 16b output value corresponds to scene-temperature in Kelvin multiplied by 100, and in low-gain state, it corresponds to Kelvin multiplied by 50. Temperature-linear output: 16b output value is intended to be directly proportional to scene temperature. By comparison, output varies significantly with camera temperature when radiometry is disabled. That is, when imaging a given scene, the output image is stable even if the camera’s temperature varies. Temperature-stable output: 16b output value is intended to be proportional to scene-flux only and independent of the camera temperature. Radiometry Disabled (T-linear Enable/Disable has no effect on output): 16b output varies with both scene flux and camera temperature. For temp-linear output, parameters such as target emissivity atmospheric transmission can be adjusted to reflect current imaging conditions. That is, the output is linear with scene temperature. In the latter case, the input flux is translated to absolute temperature (Kelvin). target irradiance) and independent of the camera’s own temperature. In the former case, the 16b output is intended to be linear with input flux (i.e. This makes them ideal for implementation with unmanned aerial systems, firefighting, automotive, security, surveillance, and industrial inspection.Ĭonfigurations of Boson which are radiometric capable feature the ability to output a “temperature stable” output or a “temperature linear” output. The Boson Radiometric models feature radiometric temperature measurement, meaning the cameras capture the temperature data of every pixel in every frame of a scene. The image processing capabilities accommodate industry-standard communication interfaces, including visible CMOS and USB.īoson Radiometric cameras bring absolute temperature measurement capabilities for quantitative assessment and analysis across commercial and industrial uses. Lens support recommended when lens mass exceeds core mass.Īll Boson thermal camera modules feature FLIR infrared video processing architecture, noise reduction filters, and local-area contrast, utilizing a high sensitivity 12-micron pixel pitch detector that provides high-resolution thermal imaging in a small, lightweight, and low-power package. Varies by configuration as low as 500 mWįour tapped M1.6x0.35 (rear cover). Re-writable each frame alpha blending for translucent overlayġ2 km (max altitude of a commercial airliner or airborne platform) <40 mK (Industrial) | <50 mK (Professional) | <60 mK (Consumer)ħ.5 g without lens (configuration dependent)Īdjustable (vertical flip and/or horizontal flip)įactory calibrated updated FFCs with FLIR’s Silent Shutterless NUC (SSN™)įull-frame snapshot, SDIO interface to support removable media ![]()
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