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Infrared thermal imaging core

The thermal imaging core series adopts the industry-leading uncooled vanadium oxide focal plane detector, supports multiple focal length lenses, provides clear images, has complete functions, flexible customization, and facilitates secondary development.

Guojin@settall.com

+86 010-63256377

Category:

Thermal Imaging Module Series

Modular Series

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Infrared thermal imaging core

IRCore-1280

Guojin@settall.com

+86 010-63256377

Category:

Thermal Imaging Module Series

Modular Series

Product Consulting Related Products File Download

Series Introduction

This thermal imaging core series uses the industry-leading uncooled vanadium oxide focal plane detector, supports multiple focal length lenses, provides clear images, is fully functional, offers flexible customization, and facilitates secondary development.

Core Technical Parameters
Thermal Imaging Core:
Uses the industry-leading uncooled vanadium oxide focal plane detector, with resolution 1280×1024 , high sensitivity, and good image quality
Supports UART serial communication, MIPI 、 USB3.0 、 HDMI 、 camerlink 、 SDI
Supports FPNC 、 SFFC and other image optimization algorithms. Supports brightness, sharpness, pseudo-color, and gain settings for clearer images.
Supports BT1120 Digital video interface, fully functional, flexible customization, and convenient for secondary development.
Supports multiple focal length lenses
Facilitates secondary development by customers
Supports configuration saving function to record customer usage habits

Application Scenarios

Suitable for industrial, agricultural, forestry, medical, transportation, power, fire protection, construction, and security industries, enabling night vision observation, fire detection, and area intrusion detection.

Technical Parameters

Thermal Imaging Parameters	IRCore-1280 (Observation Type)
Detector Type	Uncooled vanadium oxide focal plane detector
Detector Pixels	1280 × 1024
Pixel Size	12 μ m
Frame Rate (fps)	25
Spectral Range	8 μ m ～ 14 μ m
Physical Characteristics
Lens Focal Length ( mm )	35mm
Aperture	F1.0
Field of View	60.5×49
Weight (excluding lens tail plate)	≤ 61g (excluding lens)
Dimensions (excluding lens tail plate)	35mm×35mm×35 mm (excluding lens)
Thermal Sensitivity ( NETD )	≤ 35 mK@f/1.0
Image Adjustment
Brightness, contrast adjustment	Supports
Wide dynamic range, detail enhancement	Supports
Noise reduction	2D Noise reduction /3D Noise reduction
Pseudo-color	White hot / Black hot / Fusion / Rainbow / Autumn / Noon / Iron Red / Amber / Jade / Sunset / Ice and Fire / Oil Painting / Pomegranate / Emerald / Spring / Summer / Autumn / Winter
Image Processing	Non-uniformity correction / Digital filter noise reduction / Digital detail enhancement
Temperature Measurement Performance (only supported by temperature measurement models)
Temperature Measurement Range	Low temperature mode: -20 ℃~+150 ℃ , high temperature mode: 0 ℃~+550 ℃
Temperature Measurement Error	Max （ ±2 ℃ ， ±2% ），Operating Temperature（ -20 ℃ ～ +50 ℃ )
Interface Parameters
Video Output	MIPI /BT1120
Expansion Interface	MIPI/USB3.0/HDMI/CameraLink/SDI
Serial Communication	UART Serial Port
Power Parameters
Supply Voltage Range	5-12V VDC
Typical Power Consumption @25 ℃	< 1.25 W
Environmental Parameters
Operating Temperature	-30 ℃～ +70 ℃
Storage Temperature	-40 ℃～ 70 ℃
Humidity	5 ～ 95% , Non-condensing
Vibration	6.06 g , Random Vibration, All Axes

The Infrared Thermal Imaging Core is a high-performance, precision-engineered component designed to capture and process infrared radiation, converting it into high-resolution thermal images for a wide range of applications. At the heart of advanced thermal imaging systems, this core integrates state-of-the-art sensor technology, optics, and signal processing to deliver accurate, reliable, and real-time thermal data, essential for modern industrial, scientific, and security applications.

Equipped with a highly sensitive infrared detector array, the core can detect minute temperature differences across a broad spectrum, typically in the 8–14 μm range for long-wave infrared (LWIR) or 3–5 μm for mid-wave infrared (MWIR), enabling precise thermal measurement and imaging under diverse environmental conditions. The detector is coupled with advanced microbolometer or photon detector technology, depending on the model, ensuring high thermal sensitivity and fast response times while maintaining low power consumption.

The core features precision-engineered optics that focus infrared radiation onto the sensor array, minimizing image distortion and maximizing spatial resolution. Many designs incorporate anti-reflective coatings, high-quality lenses, and adjustable focus mechanisms to enhance image clarity and adaptability in varying operational environments. Coupled with sophisticated signal processing algorithms, the core converts raw infrared signals into visually interpretable thermal images, providing clear temperature mapping, hotspot detection, and anomaly analysis.

Modern infrared thermal imaging cores also include integrated digital interfaces for data output and communication, enabling seamless integration with cameras, UAVs, industrial monitoring systems, and security devices. The core supports advanced imaging modes, such as high dynamic range (HDR), thermal fusion, and real-time video streaming, allowing operators to capture dynamic scenes with exceptional detail and accuracy. Some variants offer embedded calibration mechanisms to maintain measurement accuracy over time and under changing ambient conditions.

Applications of the Infrared Thermal Imaging Core are extensive and critical across multiple industries. In industrial inspection, it enables predictive maintenance by detecting overheating in electrical systems, mechanical components, and pipelines. In firefighting and search-and-rescue operations, it allows responders to locate heat sources and individuals in low-visibility conditions. In defense and security, it provides reliable surveillance, target detection, and situational awareness regardless of lighting conditions. Additionally, scientific research, medical diagnostics, and environmental monitoring benefit from the precise thermal measurement capabilities offered by these cores.

With robust construction and optimized thermal management, the core is designed to withstand harsh environmental conditions, including high vibration, temperature fluctuations, and humidity. Lightweight and compact designs make it suitable for handheld devices, drones, and portable thermal cameras, while modular architecture allows for easy customization and upgrades according to specific operational needs.

In summary, the Infrared Thermal Imaging Core is a critical enabler of advanced thermal imaging technology, combining high-sensitivity detectors, precision optics, intelligent signal processing, and robust design to deliver unparalleled thermal visualization and measurement. It empowers industries and professionals to enhance safety, efficiency, and decision-making through precise, real-time thermal data.