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81 products
FLIR Boson+ - Lensless Core
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 Lensless - Shutterless LWIR Thermal Camera Core
From $4,448.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 Lensless - Shutterless LWIR Thermal Camera Core
From $4,448.00
Unit price perFLIR Boson+ - Lensless Core
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 14mm 32° HFoV - Shutterless LWIR Thermal Camera Core
From $5,289.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 14mm 32° HFoV - Shutterless LWIR Thermal Camera Core
From $5,289.00
Unit price perFLIR Boson+ 14mm Shutterless
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR Neutrino SX12
High Resolution MWIR Camera Module
NDAA compliant and ITAR-free, the Neutrino® Performance series includes the FLIR Neutrino QX and SX12. With high resolution and fast frame rates, the Neutrino Performance Series is ideal for ground or airborne intelligence, surveillance and reconnaissance (ISR), targeting, counter-UAS solutions, and Wide Area Motion Imagery (WAMI) applications. Recognizing integrators’ different operating requirements, the performance series offers a range of FPA types and optical interface options.
The Neutrino Performance Series was developed with system integrators in mind. The industry-standard interfaces, simple and powerful software controls, complete product documentation and Teledyne FLIR technical support reduces product development risk and shortens time to market.
CONFIGURABLE MWIR PERFORMANCE
- 1280 × 1024 resolution SXGA MWIR sensor
- High frame rates for dynamic imaging
- Flexible optics and configuration options
DESIGNED FOR INTEGRATORS
- Industry-standard interfaces (CameraLink, RS-422)
- Robust SDK and processing architecture
- Simplifies development and speeds time-to-market
PROVEN FLIR RELIABILITY
- Comprehensive integration documentation
- Commercial and defense-grade technology
- Dedicated technical support team
Teledyne FLIR BOSON 640 x 512 9.2mm 50° HFoV - Short Lens LWIR Thermal Camera Core
From $4,489.00
Unit price perTeledyne FLIR BOSON 640 x 512 9.2mm 50° HFoV - Short Lens LWIR Thermal Camera Core
From $4,489.00
Unit price perFLIR Boson 9.2mm Lens
Compact LWIR Thermal Camera
The Boson® longwave infrared (LWIR) thermal camera module sets a new standard for size, weight, power, and performance (SWaP). It utilizes FLIR infrared video processing architecture to enable advanced image processing and several industry-standard communication interfaces while keeping power consumption low. The 12 µm pitch Vanadium Oxide (VOx) uncooled detector comes in two resolutions – 640 x 512 or 320 x 256. It is available with multiple lens configurations, adding flexibility to integration programs.
With a weight as low as 7.5g and a camera body as small as 21 x 21 x 11 mm, the Boson represents an industry-leading reduction in SWaP with no reduction in performance. Advanced embedded processing and video analytics, as well as software-customizable functionality, give this small camera big capabilities, including integration with auxiliary sensors such as third-party cameras, GPS, and IMU.
DRAMATIC REDUCTION IN SIZE, WEIGHT AND POWER (SWaP) WITH NO REDUCTION IN PERFORMANCE
A full-featured VGA thermal camera module at less than 4.9cm3.
- 21 x 21 x 11 mm camera body and weight as low as 7.5g.
- Low power consumption, starting at 500 mW
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Rugged construction and -40 °C to 80 °C.
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced analytics.
- Embedded noise filters, gain control, blending, and more.
- Software-customizable processing and power options.
- Built-in support for interface standards.
WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET
Unprecedented integration flexibility for fast, affordable developments.
- Custom applications via third-party developers.
- Mechanical/electrical compatibility across versions.
- OEM integration flexibility.
Teledyne FLIR BOSON+ 320 x 256 2.3mm 92° HFoV - Radiometric - LWIR Thermal Camera Core
From $2,628.00
Unit price perTeledyne FLIR BOSON+ 320 x 256 2.3mm 92° HFoV - Radiometric - LWIR Thermal Camera Core
From $2,628.00
Unit price perFLIR Boson+ - 2.3mm Lens Radiometric
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 18mm 24° HFoV - Short Lens - LWIR Thermal Camera Core
From $5,526.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 18mm 24° HFoV - Short Lens - LWIR Thermal Camera Core
From $5,526.00
Unit price perFLIR Boson+ 18mm Short Lens
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 18mm 24° HFoV - Short Lens - Radiometric - LWIR Thermal Camera Core
From $5,629.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 18mm 24° HFoV - Short Lens - Radiometric - LWIR Thermal Camera Core
From $5,629.00
Unit price perFLIR Boson+ 18mm Compact Short Lens Radiometric
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 4.9mm 95° HFoV - Short Lens - LWIR Thermal Camera Core
From $5,289.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 4.9mm 95° HFoV - Short Lens - LWIR Thermal Camera Core
From $5,289.00
Unit price perFLIR Boson+ - 4.9mm Short Lens
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 4.9mm 95° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,393.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 4.9mm 95° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,393.00
Unit price perFLIR Boson+ - 4.9mm Short Lens - Radiometric
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 9.2mm 50° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,645.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 9.2mm 50° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,645.00
Unit price perFLIR Boson+ - 9.2mm Short Lens Radiometric
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 13.6mm 32° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,680.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 13.6mm 32° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core
From $5,680.00
Unit price perFLIR Boson+ - 13.6mm Short Lens
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 640 x 512 24mm 18° HFoV - Radiometric LWIR Thermal Camera Core
From $5,393.00
Unit price perTeledyne FLIR BOSON+ 640 x 512 24mm 18° HFoV - Radiometric LWIR Thermal Camera Core
From $5,393.00
Unit price perFLIR Boson+ 24mm Lens Radiometric
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 320 x 256 4.5mm 50° HFoV - Radiometric Short Lens LWIR Thermal Camera Core
From $2,628.00
Unit price perTeledyne FLIR BOSON+ 320 x 256 4.5mm 50° HFoV - Radiometric Short Lens LWIR Thermal Camera Core
From $2,628.00
Unit price perFLIR Boson+ 320 - 4.5mm Short Lens
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface
Teledyne FLIR BOSON+ 320 x 256 6.3mm 34° HFoV - Radiometric LWIR Thermal Camera Core
From $2,628.00
Unit price perTeledyne FLIR BOSON+ 320 x 256 6.3mm 34° HFoV - Radiometric LWIR Thermal Camera Core
From $2,628.00
Unit price perFLIR Boson+ - 6.3mm Lens
High Performance, Uncooled, Longwave Infrared (LWIR) OEM Thermal Camera Module
Made in USA, the Boson+ sets a new industry standard for longwave infrared (LWIR) OEM thermal camera performance and size, weight, and power (SWaP). It features an industry-leading thermal sensitivity of less than or equal to (≤)20 mK and an upgraded automatic gain control (AGC) filter delivering dramatically enhanced scene contrast and sharpness in all environments. Improved video latency enhances tracking, seeker performance, and decision support. With an optimized 12 µm 640 x 512 focal plane array (FPA) and AGC, Boson+ is now even more the go-to thermal camera module for defense, industrial, and commercial integrators.
Boson+ maintains the widely deployed and real-world-proven Teledyne FLIR Boson mechanical, electrical, and optical interfaces allowing plug-and-play with existing designs. The easy-to-use Boson SDK, user-friendly GUI, and comprehensive product integration documentation further simplify OEM integrated into a new system designs. Enhanced LWIR thermal performance and industry-leading reliability provide low-risk development, making Boson+ the ideal dual use thermal camera module for integration into unmanned ground vehicles (UGV), unmanned aircraft systems (UAS), wearables, security applications, handhelds, and thermal sights.
Your Application, Now With Radiometry.
Why Radiometry?
There are times when a simple thermal image is not enough to interpret a scene. In these scenarios, the ability to detect and record the temperature data from every pixel is vital to the task at hand. Radiometric thermal cameras measure the intensity of infrared signals reaching the camera to provide an accurate temperature reading of objects in the scene.
Built-In Spot Meter Accuracy
Boson Radiometric cameras include a Spot Meter Accuracy software feature that provides an assessment of how accurate a given temperature measurement appears in the scene. Available as telemetry data accessed through the Boson SDK or the Boson graphical user interface (GUI), this feature provides guidance across five confidence grades, offering in-the-moment assessment to help improve temperature measurement confidence.
ADVANCED PERFORMANCE WITH IMPROVED THERMAL SENSITIVITY CONTRAST, AND LATENCY
Industry leading NEDT of ≤20 mK extends thermal scene details and detection, recognition, and identification (DRI) performance.
- ≤20 mK thermal sensitivity
- Improved latency for faster decision support
- 12 µm pixel pitch VOx microbolometer with 320 and 640 resolutions.
- Upgraded automatic gain control (AGC) provides blacker blacks and whiter whites
POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE
FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.
- Low power consumption, starting at 900 mW
- Compact, 640x512 resolution, 12 μm pixel pitch LWIR microbolometer
- Rugged construction and operating temperature rating of -40 °C to 80 °C
DESIGNED FOR INTEGRATORS
Shared mechanical/electrical compatibility across all Boson provides plug-and-play with existing designs.
- Comprehensive product integration documentation and easy-to-use Boson GUI.
- Highly qualified Technical Services team available to support integration
- Manufactured in the USA, dual use, and classified under US Department of Commerce jurisdiction as EAR 6A003.b.4.a
- Flexible USB and CMOS or USB and MIPI interface