Thermal Cores

Teledyne FLIR BOSON 640 x 512 8.7mm 50° HFoV - LWIR Thermal Camera Core

From $4,104.00

Teledyne FLIR BOSON 320 x 256 2.3mm 92° HFoV - LWIR Thermal Camera Core

From $2,020.00

Teledyne FLIR BOSON 640 x 512 14mm 32° HFoV - LWIR Thermal Camera Core

From $4,104.00

Teledyne FLIR BOSON 320 x 256 6.3mm 34° HFoV - LWIR Thermal Camera Core

From $2,020.00

Environmental Enclosure for the Teledyne FLIR Boson

From $699.00

Environmental Enclosure

for the Teledyne FLIR Boson

In today's technological world, it is crucial to protect your Teledyne FLIR Boson Thermal Imaging Camera from environmental factors that can lead to costly damages and loss of productivity. The RHP Boson Environmental Enclosure is a cutting-edge solution that ensures the safety and longevity of your valuable devices. With its IP67 rating and exceptional features, this enclosure is the ultimate choice for safeguarding your camera.

IP67 Rated Protection

One of the standout features of the RHP Boson Environmental Enclosure is its IP67 rating. This international standard certifies the enclosure's ability to provide complete protection against the intrusion of dust and water.

IP67 rating stands for:

IP (Ingress Protection)
6 (dust-tight protection)
7 (protection to withstand temporary submersion in water up to depths of 150mm to 1000mm deep for 30 minutes).

Whether the Boson is operating in a dusty industrial environment or exposed to heavy rainfall in an outdoor setting, the Boson Environmental Enclosure guarantees uncompromised protection against these elements.

Strength and Durability		The Boson Enclosure is made from black anodized machined aluminum, offering exceptional strength and durability. It keeps your device protected even in demanding environments.
40mm Diamond Coated Germanium Glass: Crystal Clear Vision		Features 40mm diamond-coated Germanium glass for crystal clear vision and precise temperature readings. The coating protects against scratches and damage for long-term use.
Anti-Reflective Coating: Optimal Performance		Internal anti-reflective DLC coating minimizes glare and reflections, ensuring optimal performance even in bright lighting conditions.
Easy Installation with Two x 1/4-20 Mount Points		Dual 1/4"-20 mounts allow flexible and easy installation on walls, ceilings, or other surfaces.
Convenient Connectivity with 4-Pin Hirose to JST Connector		Provides a secure connection between the interface board and enclosure, ensuring reliable operation.
4-Pin to USB2 Cable Included: Seamless Integration		Includes a 4-pin to USB2 cable for easy setup and seamless integration into existing systems.

Teledyne FLIR BOSON 320 x 256 9.1mm 24° HFoV - LWIR Thermal Camera Core

From $2,020.00

Teledyne FLIR BOSON 640 x 512 24.4mm 18° HFoV - LWIR Thermal Camera Core

From $4,104.00

Teledyne FLIR BOSON 640 x 512 18mm 24° HFoV - LWIR Thermal Camera Core

From $4,104.00

Teledyne FLIR BOSON 320 x 256 4.5mm 50° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core

From $2,628.00

FLIR Boson 320 - 4.5mm Lens

Compact LWIR Radiometric Thermal Camera

The Boson longwave infrared (LWIR) radiometric 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.

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.

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 highest temperature rating -40 °C to 80 °C.

POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE

FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.

Includes embedded algorithms for noise filters, gain control, blending, and more.
Software-customizable functionality for video processing and power dissipation requirements.
Built-in support for physical and protocol-level interface standards.

WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET

Unprecedented integration flexibility for fast, affordable developments.

Customized applications through FLIR-trusted third party developers.
Mechanical/electrical compatibility across all versions.
Variety of hardware and image processing integration to fit OEM requirements.

Teledyne FLIR BOSON 640 x 512 14mm 32° HFoV - Radiometric LWIR Thermal Camera Core

From $4,334.00

FLIR Boson - 14mm Lens

Compact LWIR Radiometric Thermal Camera

The Boson longwave infrared (LWIR) radiometric 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.

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.

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 highest temperature rating -40 °C to 80 °C.

POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE

FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.

Includes embedded algorithms for noise filters, gain control, blending, and more.
Software-customizable functionality for video processing and power dissipation requirements.
Built-in support for physical and protocol-level interface standards.

WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET

Unprecedented integration flexibility for fast, affordable developments.

Customized applications through FLIR-trusted third party developers.
Mechanical/electrical compatibility across all versions.
Variety of hardware and image processing integration to fit OEM requirements.

Teledyne FLIR BOSON 320 x 256 6.3mm 34° HFoV - Radiometric LWIR Thermal Camera Core

From $2,123.00

FLIR Boson 320 - 6.3mm Lens

Compact LWIR Radiometric Thermal Camera

The Boson longwave infrared (LWIR) radiometric 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.

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.

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 highest temperature rating -40 °C to 80 °C.

POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE

FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.

Includes embedded algorithms for noise filters, gain control, blending, and more.
Software-customizable functionality for video processing and power dissipation requirements.
Built-in support for physical and protocol-level interface standards.

WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET

Unprecedented integration flexibility for fast, affordable developments.

Customized applications through FLIR-trusted third party developers.
Mechanical/electrical compatibility across all versions.
Variety of hardware and image processing integration to fit OEM requirements.

Teledyne FLIR BOSON 640 x 512 Lensless - LWIR Thermal Camera Core

From $3,558.00

Teledyne FLIR BOSON 640 x 512 4.9mm 95° HFoV - Short Lens LWIR Thermal Camera Core

From $4,232.00

Teledyne FLIR BOSON 640 x 512 18mm 24° HFoV - Radiometric LWIR Thermal Camera Core

From $4,334.00

FLIR Boson - 18mm Lens

Compact LWIR Radiometric Thermal Camera

The Boson longwave infrared (LWIR) radiometric 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.

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.

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 highest temperature rating -40 °C to 80 °C.

POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE

FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.

Includes embedded algorithms for noise filters, gain control, blending, and more.
Software-customizable functionality for video processing and power dissipation requirements.
Built-in support for physical and protocol-level interface standards.

WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET

Unprecedented integration flexibility for fast, affordable developments.

Customized applications through FLIR-trusted third party developers.
Mechanical/electrical compatibility across all versions.
Variety of hardware and image processing integration to fit OEM requirements.

Teledyne FLIR BOSON 640 x 512 4.9mm 95° HFoV - Short Lens - Radiometric LWIR Thermal Camera Core

From $4,334.00

FLIR Boson - 4.9mm

Compact LWIR Radiometric Thermal Camera

The Boson longwave infrared (LWIR) radiometric 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.

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.

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 highest temperature rating -40 °C to 80 °C.

POWERFUL INFRARED VIDEO PROCESSING ARCHITECTURE

FLIR infrared video processing with embedded industry-standard interfaces empowers advanced processing and analytics.

Includes embedded algorithms for noise filters, gain control, blending, and more.
Software-customizable functionality for video processing and power dissipation requirements.
Built-in support for physical and protocol-level interface standards.

WIDE CONFIGURABILITY FOR FASTER DEVELOPMENT AND LOWER COST-TO-MARKET

Unprecedented integration flexibility for fast, affordable developments.

Customized applications through FLIR-trusted third party developers.
Mechanical/electrical compatibility across all versions.
Variety of hardware and image processing integration to fit OEM requirements.