High Sensitivity LWIR 384x288 Thermal Camera Core with Uncooled NETD 30mk for Industrial Applications

The iSE412 infrared camera core is an easy-to-use, high-stability thermal imaging core module built with self-developed ceramic packaging detector technology. It eliminates the need for manual or automatic shutter calibration, effectively preventing image stuttering and noise generation during use, and supports silent operation without mechanical noise.

To meet different user usage habits and scenario requirements, the module is equipped with multiple practical functions: super-resolution imaging for clearer details, picture-in-picture for multi-view observation, customizable OSD for parameter adjustment, sleep mode for power saving, and electronic zoom for flexible focal adjustment. It supports various video interfaces and lens options for convenient equipment assembly and upgrade. Miniaturized and lightweight, the core works stably in various complex and space-limited environments, serving daily monitoring, industrial detection, rescue operations and other scenarios.

• Shutterless Design for Smoother Viewing: No shutter calibration required during operation, eliminating image stuttering common in traditional shutter-based systems. Silent operation ensures discreet use without mechanical noise.
• Compact and Lightweight, Flexible for Integration: Total system dimensions as small as 25.4×25.4×22.7 mm, bare core weight ≤26±1.5g. Space-saving structural design allows flexible system layout and integration.
• Feature-Rich, Seamless Integration: Supports super-resolution algorithms, picture-in-picture, customizable OSD, sleep mode, one-click calibration, and compatibility with various Micro OLED displays. Compatible with multiple optical lenses and extension components for easy secondary development and system customization.

The iSE412 thermal camera core is widely used in Industrial Vision, Firefighting and Rescue, Security Surveillance, Outdoor Observation, Machine Vision, Consumer Electronics, and more.

• Diverse Product Formats: A wide range of product formats including infrared detectors, camera cores, and modules to meet various integration requirements.
• Rich Product Variety: Multiple array resolutions, pixel sizes, wavebands, and lens options combinations provide greater flexibility for diverse applications.
• Outstanding Performance: Clear imaging, compact size, low power consumption, high sensitivity, and strong reliability—designed to perform under a wide range of environmental challenges.
• Easy Integration: Multiple interface options make integration straightforward and enable rapid development across multiple application fields.

The working principle of thermal detectors is to take advantage of the thermal effect to heat the detection element and cause heat transformation of some physical properties so that the IR radiation energy can be detected. Thermal detectors work at room temperature. During operation, there are temperature changes, which may result in slow response and relatively low sensitivity compared with photon detectors. There are mainly 4 types of infrared thermal detectors: Thermocouple/Thermopile, Pyroelectric Detector, Thermistor/Bolometer, and Microbolometer.

Infrared thermal imaging system is a passive non-contact detection and identification of infrared technology. It focuses the infrared radiation of the scene on the focal plane array infrared detector through the infrared optical system that can pass through infrared radiation. The thermal detector converts the radiation signal of different intensity into the corresponding electrical signal, and then through amplification and video processing, forms the infrared image that can be observed by the naked eye.