We focuses on the R&D and manufacturing of infrared and visible light, spectral imaging technology and its products, with completely independent intellectual property rights. We are committed to providing professional and competitive imaging, analysis products and industry solutions to customers around the world.
We focuses on the R&D and manufacturing of infrared and visible light, spectral imaging technology and its products, with completely independent intellectual property rights. We are committed to providing professional and competitive imaging, analysis products and industry solutions to customers around the world.
Industrial infrared cameras can achieve non-contact detection and measurement of target objects by capturing the infrared radiation emitted by them, thus achieving high-precision and high-efficiency monitoring and control in the production process.
Industrial infrared cameras are widely used in temperature measurement and monitoring, defect detection, thermal imaging analysis, measurement and positioning, and other fields, which are of great significance for product quality control and preventive maintenance, automated production lines, energy management, energy conservation and emission reduction.
Industrial infrared cameras can achieve non-contact detection and measurement of target objects, improve production efficiency and quality, and reduce production and maintenance costs. With the continuous advancement of technology and the expansion of application fields, the performance and application range of industrial infrared cameras will also be continuously improved and optimized, providing more advanced and practical solutions for production and quality control in the industrial field.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
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THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
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VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
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THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
We focuses on the research and development of infrared, visible light, spectral imaging technology and its products, with complete independent intellectual property rights. Committed to providing professional and competitive imaging, analysis products, and industry solutions to global customers.
Infrared thermal imaging can maintain the temperature field of the device itself without interference, and the displayed image is very intuitive, which helps to quickly identify heating problems in the product production process. Its imaging response speed is fast, efficiency is high, and non-contact detection can be achieved without identification or electromagnetic interference.
The focal plane array is the core of most modern infrared imaging systems, consisting of an infrared detector array and a readout circuit array interconnected by indium pillar solder joints. It converts the detected optical signal into an electrical signal and outputs it, so its performance directly determines the quality of the detection system.
Infrared sensing chip is an electronic device that can sense infrared radiation. Its principle is to use the infrared light emitted by an object for detection and measurement. The higher the temperature of the object, the greater the energy of the infrared light emitted. Infrared sensing chips can convert received infrared radiation into electrical signals, which are processed by signal processing circuits and ultimately output sensing results. Infrared sensing chips are commonly used in devices such as infrared sensors and thermal imagers.
Infrared detectors are generally divided into short wave infrared detectors, medium wave infrared detectors, and long wave infrared detectors according to the detection wavelength. Short wave infrared detectors can operate at higher temperatures with lower cooling costs. The detection band of mid wave infrared detectors is in the range of 3.0-5.0 μ m. If the temperature is above 300K, a mid wave infrared detection system is generally used. Long wave infrared detectors have a detection wavelength of 8.0-14 μ m, which is more advantageous for low target temperatures, long atmospheric transmission paths, and special atmospheric environments.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
We focuses on the research and development of infrared, visible light, spectral imaging technology and its products, with complete independent intellectual property rights. Committed to providing professional and competitive imaging, analysis products, and industry solutions to global customers.
Infrared thermal imaging can maintain the temperature field of the device itself without interference, and the displayed image is very intuitive, which helps to quickly identify heating problems in the product production process. Its imaging response speed is fast, efficiency is high, and non-contact detection can be achieved without identification or electromagnetic interference.
Infrared provides real-time monitoring of forests around the clock, over long distances, and over a wide range, enabling timely and accurate detection and alerting of fires, providing quick and effective guidance for firefighting operations. In the event of a forest fire, the smoke produced by the flames is large, and infrared waves have a strong ability to penetrate the smoke, effectively detecting the real ignition point and quickly carrying out search and rescue missions. After the fire is extinguished, there may be scattered sparks and even very hidden underground fires left behind. Infrared waves can quickly and accurately detect these potential dangers.
Infrared camera technology has become one of the main tools for studying terrestrial mammals and birds, which can enhance the monitoring of wildlife on a larger spatial and temporal scale, thereby generating a large amount of new information on the distribution and abundance of animal species. The widespread application of infrared camera technology is in line with major strategic needs such as national ecological civilization construction and the construction of a beautiful and healthy China. It has promoted the construction of a standardized network monitoring system for wildlife in China, with national parks and nature reserves as key monitoring areas, providing key technological support for understanding the current status of China’s wildlife resources and promoting biodiversity conservation and restoration.
Infrared thermal imaging technology can detect the thermal energy of objects, enabling it to work effectively in low light environments without interference from optical fibers or other external factors; It can also quickly detect and identify the heat distribution of target objects, reducing the workload of manual patrols and monitoring, covering a large area in a short period of time, and providing real-time monitoring and warning functions; It can also be used for personnel positioning, abnormal behavior detection, etc.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
We focuses on the research and development of infrared, visible light, spectral imaging technology and its products, with complete independent intellectual property rights. Committed to providing professional and competitive imaging, analysis products, and industry solutions to global customers.
Infrared thermal imaging can maintain the temperature field of the device itself without interference, and the displayed image is very intuitive, which helps to quickly identify heating problems in the product production process. Its imaging response speed is fast, efficiency is high, and non-contact detection can be achieved without identification or electromagnetic interference.
The application prospects of human infrared sensors in the field of artificial intelligence are broad. Firstly, by combining human infrared sensors with image recognition technology, more accurate facial recognition can be achieved. The human infrared sensor can sense the infrared radiation of the human body and accurately recognize faces in environments with insufficient or strong lighting, improving recognition rate and safety. Secondly, human infrared sensors can be combined with intelligent voice assistants to achieve more intelligent voice interaction. By sensing the presence and activity of the human body, intelligent voice assistants can more accurately determine whether the user is nearby, better understand the user’s intentions, and provide humanized services.
Utilizing artificial intelligence algorithms, such as convolutional neural networks in deep learning, for object detection and recognition of infrared thermal imaging images. Specific scenario specific behavior analysis and anomaly detection algorithms can also be added to identify abnormal behavior and take corresponding measures by analyzing the actions and behavior patterns of the target object.
Infrared images can achieve battlefield target detection and tracking, improving combat effectiveness and battlefield situational awareness; It can also be applied to target positioning and obstacle avoidance of drones. Through infrared imaging technology, precise target tracking and obstacle avoidance navigation can be achieved.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
We focuses on the research and development of infrared, visible light, spectral imaging technology and its products, with complete independent intellectual property rights. Committed to providing professional and competitive imaging, analysis products, and industry solutions to global customers.
Infrared thermal imaging can maintain the temperature field of the device itself without interference, and the displayed image is very intuitive, which helps to quickly identify heating problems in the product production process. Its imaging response speed is fast, efficiency is high, and non-contact detection can be achieved without identification or electromagnetic interference.
The camera generates thermal images or thermal images through the received energy and presents them to the driver through a display. It can improve the safety of driving and the driver’s perception of the surrounding environment, especially providing better visibility for drivers at night or in adverse weather conditions, and enhancing the driver’s sense of safety. Vehicle mounted infrared thermal imaging lenses are currently mainly used in military, police, and special vehicles. In addition, the lens is also used for monitoring natural gas pipelines, power plant energy consumption, and dust control.
Infrared thermal imaging technology can compensate for the shortcomings of traditional visual cameras in low visibility environments. Under complex weather conditions such as rain, snow, and haze, the penetrating visual system is easily interfered with, affecting the accuracy of perception and recognition. Infrared thermal imaging technology can penetrate these interferences, provide clear images, and accurately detect the heat distribution of surrounding objects. Secondly, during nighttime driving, infrared thermal imaging technology can accurately detect pedestrians, animals, and obstacles, effectively preventing collision risks and improving driving safety. In addition, it can also be applied to in car monitoring systems to improve passenger safety and comfort.
Real time monitoring of details such as the driver’s head, eyes, and face through an infrared camera facing the driver, pattern recognition of the obtained information data, and judgment of fatigue or distraction state. Its main functions include fatigue driving recognition and warning, attention deficit behavior recognition and warning, safety program recognition and warning, driver behavior management, driver identity security recognition, etc.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
We focuses on the research and development of infrared, visible light, spectral imaging technology and its products, with complete independent intellectual property rights. Committed to providing professional and competitive imaging, analysis products, and industry solutions to global customers.
Infrared thermal imaging can maintain the temperature field of the device itself without interference, and the displayed image is very intuitive, which helps to quickly identify heating problems in the product production process. Its imaging response speed is fast, efficiency is high, and non-contact detection can be achieved without identification or electromagnetic interference.
By using a thermal imaging system to collect human infrared radiation and convert it into digital signals, a pseudo color thermal map is formed. Professional doctors analyze the thermal map to determine the location, nature, and severity of human lesions, providing reliable basis for clinical diagnosis and comprehensive warning analysis of various diseases throughout the body.
The infrared thermal imaging device passively receives infrared radiation emitted by the human body through an external detector, which does not cause any harm or adverse reactions to the human body, and does not require markers, nor does it cause any pollution to the environment. It can be used as the preferred method for screening potential populations with health, sub-health, subclinical, and high-risk major diseases. In terms of health screening and overall assessment, modern medicine, traditional Chinese medicine constitution theory, and clinical experience are applied to comprehensively evaluate the health status of various systems and the overall health of the human body, in order to formulate corresponding medical, health care, prevention, and intervention plans.
Early detection of major diseases such as cardiovascular, cerebrovascular, and tumor diseases, as well as screening for sudden and regional epidemics, based on observations of the immune system, endocrine system, local tissue organs, and their corresponding lymphatic regions. Studying the physiological and pathological responses of diseases from the perspective of cellular metabolism and changes in human body function, providing auxiliary diagnostic methods for clinical research. Utilizing the characteristic of temperature changes occurring earlier than lesions for early detection of diseases.
Large Zoom Ratio Cooling Infrared Thermal Imager
The large zoom ratio refrigeration infrared thermal imager adopts continuous zoom mode, with a zoom ratio exceeding 10 ×. The lens adopts a dual reflection structure, effectively reducing weight and volume, and can be applied to systems such as optoelectronic search, optoelectronic reconnaissance, and optoelectronic tracking. Main Technical Indicators
THLW-1024D
THLW-1024D adopts the industry-leading uncooled vanadium oxide focal plane detector, with a resolution of 1280 × 1024, high sensitivity, and good image quality; Support image optimization algorithms such as FPNC and SFFC, and enable settings for brightness, sharpness, pseudocolor, gain, and other functions, resulting in clearer images; Supports BT1120 digital
THLW-640D
The Thermal Imaging Core Series adopts industry-leading uncooled vanadium oxide focal plane detectors, supporting multiple focal length lenses, clear images, complete functions, flexible customization, and convenient secondary development. Features: Resolution 640 × 512, high flexibility, good image quality; Support serial communication and CVBS; Support FPNC, SFFC and other image optimization
VISW320-30T
VISW320-30T is a cost-effective, compact, and stable large target shortwave infrared camera with a frame rate of up to 300Hz, making it easy to integrate into industrial systems. Excellent low noise and cooling design, this camera has very low dark current and high dynamic range in the detection range of
THNIR1450
THNIR1450 adopts the latest generation image sensor, with a resolution of 1450 × 1150 and a pixel spacing of 9.7 μ m. It has extremely high sensitivity in the 400nm~1180nm wavelength range. This movement has low dark current and dynamic range, compact structure, stable performance, small size, low power consumption,
