ABOUT
STORNOWAY

Shanghai Dutai Imaging Technology Co., Ltd. is a technology enterprise integrating industry and trade, which combines research and development, customized processing and sales. Its headquarters office is located in Minhang District, Shanghai, an international metropolis.

The company provides professional temperature measurement imaging solutions, infrared thermal imaging temperature measurement equipment, high-temperature blackbody standard source equipment and other scientific research instruments, along with considerate after-sales services.

The company can also customize non-standard infrared thermal imaging core modules, industrial infrared thermal imagers, short-wave thermal imagers, high-resolution thermal imagers, portable thermal imagers and infrared thermal imager control systems according to customer needs. It also provides products such as blackbody calibration furnaces, dry-body furnaces, large-area blackbody furnaces, low-temperature blackbody furnaces, and portable blackbody furnaces

PRODUCT HIGHLIGHTS

PTZ Camera Series

Model: DTYT-970LS

Model: DTYT-970H

Model: DTYT-972

Model: DTYT-800

Customizable network interface, USB interface, analog video interface

Model: DR-380

Pixel:384*288

Model: DR-650

Pixel:640*512.

Pixel:640*512

Model: DR-650P

Model: DR-1920P

Pixel:1920*1080

Cost-Effective Blackbody Radiation Source Series

-15℃～100℃

50℃～500℃

The independently developed and produced dual-cavity portable blackbody radiation source is a special equipment mainly used for calibrating non-contact radiation temperature measuring instruments such as infrared radiation thermometers and infrared thermal imagers.

Ambient temperature +5℃～500℃

The independently developed and produced portable blackbody radiation source is a special equipment mainly used for calibrating non-contact radiation temperature measuring instruments such as infrared radiation thermometers and infrared thermal imagers.

The tube-type blackbody radiation source independently developed and produced is a special equipment mainly used for calibrating non-contact radiation temperature measuring instruments such as infrared radiation thermometers and infrared thermal imagers。

Ambient temperature +5℃～700℃

100℃～1200℃

700℃～1600℃

The independently developed and produced high-temperature spherical blackbody radiation source is a special equipment mainly used for calibrating non-contact radiation temperature measurement instruments such as infrared radiation thermometers and infrared thermal imagers.

Infrared thermal imager moduleFree debugging software and a complete SDK

USB interface debugging software

Network interface debugging software

Complete SDK

1. Optical research: Blackbody furnaces can be used to simulate thermal radiation scenarios and study the performance of optical devices, such as reflectivity and absorptivity, which is of great significance for the research of optical materials.

2. Infrared thermal imaging: As a calibration tool for infrared thermal imaging systems, blackbody furnaces are used to ensure the accuracy and reliability of infrared cameras, which is crucial for the development and application of thermal imaging technology.

3. Materials science: Blackbody furnaces can be used to study the thermal properties of materials, such as thermal conductivity and thermal expansion coefficient, helping researchers understand the properties and behaviors of materials under high or low temperature conditions.

4. Electronic device research: They are used to test the performance of electronic devices under different temperature conditions, such as the electrical characteristics and stability of semiconductor devices, which is of great significance for the design and optimization of electronic devices.

5. Environmental science: In the field of environmental science, blackbody furnaces can be used to

6. simulate temperature scenarios under different climatic conditions and study the impact of

7. climate change on the environment and ecosystems.

8. Thermodynamics research: They are used to study thermodynamic processes and thermal

9. equilibrium conditions, such as thermodynamic cycles and thermodynamic properties, helpin

10. g researchers deeply understand thermodynamic theories and applications.

11. Infrared spectroscopy analysis: Blackbody furnaces can be used to provide stable

12. background radiation, which is used for background correction and improvement of

13. signal-to-noise ratio in infrared spectroscopy analysis.

These application fields demonstrate the important role of blackbody furnaces in scientific researchproviding experimental platforms and tools for researchers and promoting the development andprogress of scientific research in various fields.

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Application scenarios of blackbody radiation sources

The following is a basic method for calculating the lens viewing angle range of an infrared thermal imager under normal circumstances:

1. Understand the sensor size: First, you need to know the size of the sensor used in the

   infrared thermal imager, which is usually given in inches or millimeters, such as a 1/2-inch sensor.

2. Determine the focal length: Obtain the focal length of the lens, which is usually given in millimeters, such as 25mm.

3. Calculate the field of view: The field of view can be calculated using the following formula:

   Field of view = 2 arctan (sensor size / (2 focal length))

   Here, arctan is the arctangent function, and the units of the sensor size and focal

   length must be consistent.

4. Convert to degrees: The field of view obtained from the above calculation is usually in radians.

   If it needs to be converted to degrees, it can be multiplied by 180/π.

   Through the above steps, you can calculate the lens viewing angle range of the

   infrared thermal imager. This helps to understand the range that the thermal imager

   can cover in actual use and is of great significance for selecting suitable equipment and

   determining the applicability of scenarios.

Application Cases