Our Thermal Infrared Binoculars are crafted from premium materials and undergo rigorous testing to ensure durability and reliability in all conditions. They are designed to withstand rugged environments and harsh weather, making them suitable for both indoor and outdoor use. The lenses and sensors are carefully selected to provide clear and precise thermal imaging, allowing users to detect heat signatures effectively over long distances.We offer customizable options for our Thermal Infrared Binocular to meet specific user requirements. Whether it's adjusting the magnification levels, integrating additional features such as laser rangefinders or GPS systems, or customizing the ergonomic design for comfort and usability, we provide tailored solutions to suit diverse operational needs. Our ability to customize ensures that users can optimize their thermal imaging experience based on unique applications and preferences.
The primary function of our Thermal Infrared Binoculars is to detect and visualize heat signatures emitted by objects and individuals. This capability is crucial in surveillance and security operations, where identifying threats or monitoring activities in low-light or adverse weather conditions is essential. Additionally, these binoculars are invaluable in search and rescue missions, wildlife observation, and marine navigation, providing enhanced situational awareness and operational effectiveness.One of the key advantages of our Thermal Infrared Binoculars is their ability to provide real-time thermal imaging without relying on visible light. This allows users to maintain covert operations or operate in complete darkness, where traditional optical devices would be ineffective. The thermal imaging technology also offers superior detection capabilities, distinguishing between objects based on their thermal signatures rather than visual appearance alone. Furthermore, our binoculars are designed for ergonomic comfort and ease of use, featuring intuitive controls and lightweight construction that minimize user fatigue during extended periods of operation.
Product Image
Specification
| Item | Main technica l data | Remark | |
| Infrared lens | Focus | 50mm/75mm | |
| Fov | 12.4°×7°/8.3°×6.6° | ||
| Infrared sensors | Detector type | Vox | |
| Resolutions | 640×512/384×288(12um) | ||
| Wave | 8-14μm | ||
| NETD | ≤35Mk | @F1.0,300K | |
| Frequency | 50Hz | ||
| Signal to noise ratio | 56DB | ||
| Non-uniformity correc t ion | Manual/Auto | ||
| Image Processing | DDE | ||
| Zoom | 1~8X | ||
| Low light lens | Focus | 35mm | |
| Fov | 12.4°×7°/8.7°×5° | ||
| Sensor type | CMOS sensor | ||
| Low light detector | type | 6um | |
| Pixels | 1280x720 | ||
| Dynamic Range | 76DB | ||
| Frequency | 50Hz | ||
| LRF | Laser type | A semiconductor laser | |
| Laser wave | 1550nm | ||
| Detect range | 10m-4km | ||
| Accuracy | ±1m | ||
| Precision rate | ≥98% | ||
| Compass | Compa s s | Azimuth accuracy 1 °P i tch angle accuracy 1° | |
| Image display | Mode | OLED HD binocular display | |
| Resolution | 1024×768 | ||
| Colors | White heat/black heat/low light/fusion picture-in-picture display / fusion color /fusion gray /fusion black and white |
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| Storage | Built-in storage | 32G | |
| Video format | AVI | ||
| Physical characteristics |
Continuous working time | 5 hours | |
| Total weight | 1.3kg(without battery) | ||
| Size | 182.5mmX180.2mmX82.8mm(LxWxH) Contains eye mask | ||
| Interface | Power in | DC12V | |
| Video output | PAL | ||
| Data interface | USB2.0 | ||
| Control interface | RS232 | Can use RS232 to control all functions of Device |
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| Environmenl indicators |
Work Temperature | -40℃+60℃ | |
| Storage temperature | -50℃+70℃ | ||
| humidity | ≤90% | ||
| Seal | IP67 | ||
| Optional Function | GPS WIFI | ||
Applications:
Thermal imaging binoculars are a versatile advanced optical tool that play an important role in a variety of fields by detecting and displaying the infrared radiation of targets. From backcountry exploration to wildlife conservation, from search and rescue to construction and security, and abnormal heat source detection, to fisheries and agricultural applications, this technology provides users with the ability to obtain critical information in low visibility or nighttime conditions. The application of thermal imaging binoculars not only increases efficiency, but also helps enhance safety and improve resource management, so it has wide-ranging value and potential in multiple fields.
Outdoor Activities:
For deer observation:
For bird observation:
FAQ
Q1: How does a thermal imaging binocular work?
A thermal imaging binocular operates by detecting infrared radiation emitted by objects and converting it into a visible image. It utilizes a special sensor known as a microbolometer, which measures the heat emitted by objects in the form of infrared radiation. This radiation is then translated into electrical signals that are processed to create a thermal image. Unlike night vision devices that amplify ambient light, thermal imaging works in complete darkness and can detect temperature differences as small as a fraction of a degree Celsius. This capability makes it invaluable for surveillance, search and rescue operations, wildlife observation, and even in military applications where visibility may be compromised.
Q2: What are the advantages of using a thermal imaging binocular?
The primary advantage of using a thermal imaging binocular is its ability to detect heat signatures rather than relying on visible light. This means it can be used effectively in complete darkness, through smoke, fog, and even light foliage where traditional night vision goggles may struggle. Another significant advantage is its capability to detect and display temperature differences, allowing users to identify living organisms, sources of heat, or overheating equipment. This makes it highly versatile for a wide range of applications including law enforcement, firefighting, hunting, and outdoor activities where situational awareness in low-light conditions is critical. Moreover, thermal imaging binoculars are now becoming more compact and affordable, widening their accessibility beyond specialized military and scientific use.
Q3: What are the limitations of thermal imaging binoculars?
Despite their many advantages, thermal imaging binoculars have some limitations. One major drawback is their inability to provide detailed images of objects. The thermal images produced are usually less detailed compared to those captured by traditional optical devices. This can make it challenging to identify specific facial features or read text at a distance. Additionally, thermal imaging is sensitive to changes in environmental conditions such as temperature and humidity, which can affect the accuracy of the thermal signatures detected. Another consideration is their relatively higher cost compared to night vision devices, although prices have been decreasing as technology advances. Lastly, while thermal imaging works well in detecting heat sources, it cannot differentiate between objects that emit similar levels of heat, which may pose challenges in certain scenarios requiring precise identification.
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