Main Image
Main Image
Talk to our Engineers

Need Real Answers for your Specific Use Case? Talk to our Engineers

No sales scripts. Just technical feasibility:

Call us at 1-866-400-1300

or

E-mail

CTlaser F6

Optris IR Sensing, LLC

Select a Model:

Temperature Ranges :

200 – 1450 °C

Distance to Spotsize (D:S) :

45 : 1

Optics :

Standard focus SF 27 mm @ 1200 mm

Cable Length :

3 m (9.8 ft) head cable, standard

Connector-Version :

None

Size :

Sensing head: Ø50 x 100 mm, M48x1.5 Electronics: 122 mm x 70 mm x 27 mm

Housing Material :

Stainless Steel

Weight :

600 g (sensing head) / 420 g (electronics)

Country of Origin :

Germany

$1,690.00 USD

Choose Quantity:

1

Accessories

The W5 Engineering Advantage

Icon for award

20+ Years in Testing

Icon for users

All Across North America

Icon for trust

Trusted by Industry Leaders

Icon for clock

24-Hour Engineering Replies

Icon for users

Secure Order Processing

Icon for Award

ISO-Level Quality Assurance

The CTlaser F6 enables precise non-contact temperature measurement of carbon monoxide flame gases, reaching up to 1650 °C, crucial for combustion processes and chemical reactors. Filters in infrared thermometers select wavelengths based on gas absorption bands, with carbon monoxide showing an absorption band of 4.66 µm. The F6's spectral range ensures accurate readings, ranging from 200 °C up to 1650 °C.

The CTlaser F6 is designed for precise non-contact temperature measurement of carbon monoxide flame gases, operating at temperatures up to 1650 °C, making the pyrometer ideal for applications such as combustion processes, waste incineration, and chemical reactor operations. Gas molecules emit infrared energy at specific wavelengths, forming absorption bands in the infrared spectrum. Infrared thermometers utilize filters to select wavelengths based on the absorption bands of targeted gases, defining the spectral range. At ambient temperature, carbon dioxide (CO₂) presents a strong absorption band at 4.24 µm, while carbon monoxide (CO) exhibits one at 4.66 µm. Elevated gas temperatures cause shifts in these absorption bands. Combustion gas behaves as a semi-transparent medium to infrared thermometers, necessitating sufficient density or volume of hot gas molecules for valid measurements, akin to visibility through fog. Measurement depth into the gas stream is influenced by gas temperature, type, and concentration.

The CTlaser F6’s spectral range around 4.66 μm ensures accurate temperature readings of carbon monoxide. Temperature ranges vary: 200 °C … 1450 °C for the F6 model and 400 °C … 1650 °C for the F6H model. System accuracy stands at ±1%, with repeatability of ±0.5% or +0.5 °C at an ambient temperature of 23 ± 5 °C. Featuring a spot size starting from 1.6 mm and optics of 45:1 with different focus points, this infrared thermometer ensures accuracy and flexibility in various settings.

Another noteworthy feature of the CTlaser F6 series is its double laser aiming marks, providing precise aiming support and minimizing alignment errors. This innovative system utilizes two laser beams to trace the infrared optical path and accurately indicate the spot’s position and size, irrespective of distance.

The CTlaser F6 pyrometer adopts a two-piece design with a separate electronics box, offering advanced signal processing capabilities. The IR sensor provides a wide range of analog and digital outputs, including 0/4 – 20 mA, 0 – 5 V, 0 – 10 V, USB, Ethernet, RS485, RS232 interface, relay outputs (2 x optically isolated), Profibus DP, Modbus TCP, ProfiNet, and Ethernet/IP, ensuring seamless integration into various industrial processes and control systems.

Operational in ambient temperatures up to 85 °C without cooling, the laser automatically switches off at 50 °C for energy efficiency. Enhanced with Optris accessories such as air purging, cooling jackets, and mounting flanges, the CTlaser F6 is designed for integration into diverse gas monitoring applications. Customization options, including different cable sizes, are available to meet specific customer requirements.

Manufactured in Germany, these pyrometers undergo meticulous calibration to meet government standards such as PTB or NIST. Calibrated under an inert gas atmosphere (Argon), they ensure accuracy in temperature measurement. This rigorous calibration process ensures the highest quality and accuracy.

Optris is committed to providing comprehensive support for the CTlaser F6 series, including consultation on industrial applications and after-sales support, ensuring optimal performance and user satisfaction. With its precision, versatility, and reliability, the CTlaser F6 proves to be a valuable instrument for temperature measurement in various gas monitoring applications.

The CTlaser F6 is designed for precise non-contact temperature measurement of carbon monoxide flame gases, operating at temperatures up to 1650 °C, making the pyrometer ideal for applications such as combustion processes, waste incineration, and chemical reactor operations. Gas molecules emit infrared energy at specific wavelengths, forming absorption bands in the infrared spectrum. Infrared thermometers utilize filters to select wavelengths based on the absorption bands of targeted gases, defining the spectral range. At ambient temperature, carbon dioxide (CO₂) presents a strong absorption band at 4.24 µm, while carbon monoxide (CO) exhibits one at 4.66 µm. Elevated gas temperatures cause shifts in these absorption bands. Combustion gas behaves as a semi-transparent medium to infrared thermometers, necessitating sufficient density or volume of hot gas molecules for valid measurements, akin to visibility through fog. Measurement depth into the gas stream is influenced by gas temperature, type, and concentration.

The CTlaser F6’s spectral range around 4.66 μm ensures accurate temperature readings of carbon monoxide. Temperature ranges vary: 200 °C … 1450 °C for the F6 model and 400 °C … 1650 °C for the F6H model. System accuracy stands at ±1%, with repeatability of ±0.5% or +0.5 °C at an ambient temperature of 23 ± 5 °C. Featuring a spot size starting from 1.6 mm and optics of 45:1 with different focus points, this infrared thermometer ensures accuracy and flexibility in various settings.

Another noteworthy feature of the CTlaser F6 series is its double laser aiming marks, providing precise aiming support and minimizing alignment errors. This innovative system utilizes two laser beams to trace the infrared optical path and accurately indicate the spot’s position and size, irrespective of distance.

The CTlaser F6 pyrometer adopts a two-piece design with a separate electronics box, offering advanced signal processing capabilities. The IR sensor provides a wide range of analog and digital outputs, including 0/4 – 20 mA, 0 – 5 V, 0 – 10 V, USB, Ethernet, RS485, RS232 interface, relay outputs (2 x optically isolated), Profibus DP, Modbus TCP, ProfiNet, and Ethernet/IP, ensuring seamless integration into various industrial processes and control systems.

Operational in ambient temperatures up to 85 °C without cooling, the laser automatically switches off at 50 °C for energy efficiency. Enhanced with Optris accessories such as air purging, cooling jackets, and mounting flanges, the CTlaser F6 is designed for integration into diverse gas monitoring applications. Customization options, including different cable sizes, are available to meet specific customer requirements.

Manufactured in Germany, these pyrometers undergo meticulous calibration to meet government standards such as PTB or NIST. Calibrated under an inert gas atmosphere (Argon), they ensure accuracy in temperature measurement. This rigorous calibration process ensures the highest quality and accuracy.

Optris is committed to providing comprehensive support for the CTlaser F6 series, including consultation on industrial applications and after-sales support, ensuring optimal performance and user satisfaction. With its precision, versatility, and reliability, the CTlaser F6 proves to be a valuable instrument for temperature measurement in various gas monitoring applications.

Features

Temperature range: 200 °C to 1650 °C

Spectral range: 4.64 µm

Response time: 10 ms

For Temperature Measurement of hot CO gas

Download