Infrared Thermal Imaging Camera Cores | Manufacturer

Experience the next generation of thermal imaging integration. From design to deployment, SensorMicro makes infrared accessible for every industry.

SensorMicro’s uncooled infrared cores provide versatile solutions for a wide range of applications. Compact and easy to integrate, these modules help accelerate the deployment of infrared thermal imaging across industries.

Wafer-Level Packaging
Cost-Effective Design
Flexible Extension, Rapid Integration

Pixel Size: 12μm
Unmatched Image Quality
Easy-to-integrate

1280×1024/12μm
Outstanding Images, Precise Detection
Wafer-Level Packaging

Real-time Temperature Measurement
Wafer-Level Packaging
Comprehensive Functionality, Cost-Effective Design

Pixel Size: 12μm
Real-time Temperature Measurement
Easy-to-integrate

1280×1024/12μm
Monitoring Tiny Temperature Variations
Wafer-Level Packaging

Shutterless
384×288/12μm
Flexible for Integration

Shutterless
Smooth, Stable
Rich Features for Seamless Integration

1280×1024/12μm
Shutterless Design
Feature-Rich, Integration-Friendly

Medical Diagnosis
Non-contact Biological Temperature
Easy Integration

Too Light to Feel
Temperature Measurement
Easy Development, Seamless Integration

Too Light to Feel
SWaP
Easy Development, Seamless Integration

256×192/12μm
Optimized SWaP Design
Cost-Effective

SWaP
Cost-Effective
Easy Integration

SWaP
Cost-Effective
Easy Integration

Our cooled infrared camera cores combine high-performance detectors with image processing circuitry to deliver clear images. They are available in mid-wave, long-wave, and high-temperature variants, suitable for a wide range of applications.

2.5–4.8μm Spectral Coverage
High Sensitivity
Easy Integration

High Sensitivity
Easy Integration
Next-generation Image Algorithms

High Sensitivity
Easy Integration
Next-generation Image Algorithms

High Sensitivity
Exceptional Image Quality
Easy Integration

1280×1024/10μm
Superior Sensitivity
Easy Integration

1280×1024/12μm
Superior Sensitivity
Easy Integration

Cutting-edge HOT Technology
SWaP Optimization
Easy Integration

Cutting-edge HOT Technology
SWaP Optimization
Pixel Size: 10μm

1280×1024/7.5μm
Cutting-edge HOT Technology
SWaP Optimization

1280×1024/10μm
Cutting-edge HOT Technology
SWaP Optimization

LWIR with Resilience Against Interference
T2SL
Rich Interfaces, Easy Integration

LWIR with Resilience Against Interference
T2SL
Rich Interfaces, Easy Integration

1280×1024/10μm
LWIR with Resilience Against Interference
Rich Interfaces, Easy Integration

Multi-Gas Leak Detection
Advanced HOT Technology
SWaP³

Identification of Common VOCs Leaks
Easy Integration
High Sensitivity

Excellent Flame Penetration Capability
Multi-Platform, Wide Compatibility
Smart Algorithms

CO₂ Leak Detection
High Sensitivity
Rich Interfaces, Easy Integration

Designed for CO Leak
High Sensitivity
Rich Interfaces, Easy Integration

LWIR, Focused on SF₆ / NH₃
High Sensitivity
Rich Interfaces, Easy Integration

More: More Series, More Forms

Compared with our thermal imaging modules, infrared camera cores go beyond basic imaging capabilities, serving as a more comprehensive infrared thermal imaging solution.

SensorMicro's infrared camera cores support advanced functions such as image enhancement, target recognition, and communication control. These integrated features make it easy for users across all industries to access a full range of infrared functionalities — making thermal imaging simpler than ever.

Thermal imaging detects heat — not visible light. Every object emits infrared radiation based on its temperature. A thermal camera captures this radiation and converts it into an electronic signal, which is then processed to create a visual image known as a thermogram. The warmer an object is, the more infrared energy it emits. By translating these variations into color gradients, thermal imaging allows you to see temperature differences that the human eye cannot detect, revealing hidden details, potential issues, and energy losses in real time.

COIN: Affordable & Flexible

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Designed for industrial inspection and security monitoring, the COIN series delivers cost-effective performance and proven reliability. It covers a wide range of resolutions, making it ideal for large-scale deployment in industrial and security systems.

iHA: Ideal Choice for Medical Diagnosis and Animal Agriculture

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Tailored for medical and body temperature screening, the iHA series offers exceptional temperature accuracy of up to ±0.5 °C, enabling precise thermal imaging for healthcare and medical device applications.

iTL: Quite Small, Quite Precise

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Engineered for next-generation wearable devices, the iTL series combines lightweight design with ultra-low power consumption. It’s the perfect fit for compact, mobile terminals such as smart helmets and personal sensing devices.

MICO: Cost-Effective Choice for Space-constrained Application

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Focusing on extreme miniaturization and high imaging performance, the MICO series achieves the optimal balance among size, sensitivity, and response speed — making it an ideal choice for innovative system integration solutions.

iSE: Stable and Smooth Observation Experience

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Developed for outdoor equipment and harsh environments, the iSE series adopts a shutterless design to ensure fast response and high reliability, providing all-weather infrared monitoring capability under complex conditions.

GAVIN GC: Meet the Need of Long-range Detection

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Built on a high-performance cooled infrared detector and advanced image processing circuitry, the GAVIN GC Series forms a complete imaging unit capable of directly outputting high-quality infrared images and data signals.

Enhances real-time monitoring, detects hidden hazards, ensuring protection in...

Identifies invisible gas leaks accurately, improving safety....

Empowers robots with thermal perception, enabling precise inspection.....

Infrared imaging extends human vision beyond darkness.....

Provides precise temperature measurement for predictive maintenance...

Integrates thermal data with smart analytics, enabling intelligent, connected...

A thermal imaging camera core is the central module of an infrared camera, combining a detector, optics, signal processing, and sometimes cooling systems to capture and generate thermal images.

Cooled cores offer higher sensitivity, longer detection ranges, and multi-spectral capabilities, while uncooled cores are more compact, lower cost, and consume less power.

They are widely used in industrial inspection, gas leak detection, firefighting, building diagnostics, automotive systems, security surveillance, and scientific research.

Key factors include detector type (cooled vs. uncooled), pixel resolution, frame rate, lens quality, and signal processing algorithms.

Yes. Many modern cores include integrated image processing, user-friendly interfaces, and communication protocols, enabling easy deployment by non-specialists.

Thermal imaging camera cores are designed with rugged housings, thermal shielding, and optional remote operation capabilities, allowing safe and reliable imaging in extreme or inaccessible conditions.

Uncooled cores require minimal maintenance, while cooled cores may need periodic system checks for the cooling mechanism. Regular calibration ensures long-term accuracy and performance.

Infrared Thermal Imaging Camera Core

Uncooled Infrared Camera Core

Cooled Infrared Camera Core

Why Choose Our Thermal Imaging Camera Cores

How Does Thermal Imaging Work?

Explore SensorMicro's Infrared Core Families

Frequently Asked Questions About Thermal Imaging Camera Cores

What is a thermal imaging camera core?

What are the differences between cooled and uncooled cores?

Which industries benefit most from thermal imaging cores?

What factors affect the image quality of a thermal imaging core?

Can non-experts operate thermal imaging cores?

How do thermal imaging cores handle high-temperature or hazardous environments?

What maintenance is required for thermal imaging cores?