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The Bobcat 320 Gated series is based on an in-house developed, temperature stabilised InGaAs detector with a 320 x 256 pixel resolution.
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The Bobcat 320 series is based on an in-house developed, temperature stabilized InGaAs detector with a 320 x 256 pixel resolution.
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The Bobcat 640 series is based on an in-house developed, temperature stabilized InGaAs detector with a 640 x 512 pixel resolution.
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The Ceres T 1280 series is based upon the Dione 1280 OEM thermal imaging core with 1280×1024 pixels and 12 μm pixel pitch. The camera offers superior on-board thermographic performance (accuracy, stability) in the temperature range up to 400°C.
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The Ceres T 640 series is based on the Dione 640 OEM thermal imaging core with an uncooled 12 μm pitch microbolometer detector with a 640 × 480 resolution and NETD of less than 60 mK.
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The Cheetah 640 series is based on a cooled, in-house developed InGaAs detector with a 640 x 512 pixel resolution.
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The Dione 1280 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution and NETD of less than 60 mK.
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The Dione 1280 OEM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution and NETD of less than 60 mK.
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The Dione S 1280 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution and NETD of less than 60 mK.
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The Dione S 640 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 640 × 480 resolution and NETD of less than 60 mK.
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The Gobi+ 640 series is based on an uncooled microbolometer detector with a 640 x 480 pixel resolution.
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The Lynx square (SQ) series, based on an in-house developed linear InGaAs detector, offer affordable short-wave infrared (SWIR) linescan imagers.