NLIR384 | 384×288 Balanced Industrial Thermal Module
The NLIR384 uncooled infrared engine is a highly optimized SWaP-C Thermal Imaging Module engineered for balanced performance in mass-scale industrial deployments. Combining an in-house developed 12μm WLP detector with a proprietary second-generation IR ISP chip, it delivers elite thermal responsiveness with 30% lower deployment costs compared to alternative hardware platforms.
- SWaP-C Perfection: Weighs under 8.6g with an ultra-compact 21×21×10.3mm envelope.
- Balanced Resolution: Highly sensitive 384×288 focal plane matrix with a <12ms thermal time constant.
- AI Platform Ready: Multi-interface hub supporting rapid integration into intelligent automated networks.
I. NLIR384 SWaP-C Thermal Imaging Module | Industrial Core
Cost-Effective 384×288 Uncooled Infrared Engine for Automated Diagnostics
The NLIR384 represents a definitive milestone in cost-optimized radiometric engineering, offering a high-performance SWaP-C thermal imaging module architecture tailored specifically for industrial monitoring and OEM system integration. By leveraging our proprietary second-generation IR ISP chips and advanced Wafer-Level Packaging (WLP) detectors, this module delivers exceptional cost-efficiency while meeting the strict constraints of Size, Weight, and Power (SWaP) required by highly compact diagnostic systems.
This 384×288 resolution uncooled core features a refined 12μm pixel pitch and a thermal sensitivity (NETD) of ≤40mK, yielding crisp, detailed thermal profiles crucial for early anomaly detection. To facilitate seamless operation across complex computational environments, the module supports a wide spectrum of digital video pipelines, including MIPI, DVP, and USB 2.0, along with legacy analog CVBS tracking. Its integration allows hardware engineers to rapidly build intelligent edge computing devices, making the NLIR384 the premier foundation for modern automated inspection platforms.
II. Engineering Advantages of the NLIR384 SWaP-C Thermal Imaging Module
- Cost-Effective Innovation: Reduces overall hardware deployment costs by up to 30% compared to industry competitors due to our integrated WLP and ISP technology.
- Ultra-Lightweight SWaP Framework: Weighing less than 8.6g with a minimal 21mm square chassis, it minimizes mechanical burden in pan-tilt-zoom assemblies and portable gear.
- Uninterrupted Video Continuity: Employs an advanced non-shuttering Shutterless algorithm alongside standard shutter calibration to guarantee seamless, lag-free analytics.
- Extreme Launch and Operational Shock: Rated to survive severe 80g sawtooth shock profiles (4ms duration) and 6.06grms random vibration across all operational axes.
- Full Environmental Compliance: Engineered with sustainable materials that fully comply with industrial RoHS and REACH certification requirements.
III. Strategic Deployment Scenarios for Balanced Infrared Modules
Industrial Monitoring and Inspection Robots
The 384×288 resolution provides the optimal data balance for fixed factory automation and automated inspection robots. Its wide operational range allows for high-precision temperature profiling in complex manufacturing areas.
Drone Search and EO/IR Gimbals
With its exceptionally low power requirement (<0.7W) and light weight, this SWaP-C thermal imaging module is ideal for integration into lightweight dual-sensor airborne gimbals, maximizing multi-rotor flight times.
Perimeter Security and Fire Warning
Deployed as an edge sensor for critical infrastructure security and early fire warning systems, the NLIR384 penetrates adverse weather and thick smoke to provide uninterrupted situational awareness.
IV. NLIR384 Technical Specification Matrix
| Parameter Category | Technical Specification |
|---|---|
| Detector Type | Vanadium Oxide (VOx) Uncooled Infrared Focal Plane Array |
| Array Resolution | 384 × 288 |
| Detector Refresh Rate | 30Hz / 60Hz Native |
| Pixel Dimensions | 12μm |
| Thermal Sensitivity (NETD) | ≤40mK @25℃, F#1.0, 25Hz |
| Thermal Time Constant | <12ms |
| Spectral Response Band | 8μm ~ 14μm |
| Input Operating Voltage | DC 5V |
| Typical Power Consumption | <0.7W |
| Digital Video Formats | DVP / BT656 / USB2.0 / MIPI |
| Analog Video Signal | PAL / NTSC |
| Control Communication | UART / I2C / USB2.0 |
| Physical Frame Mass | <8.6g |
| Physical Core Size | 21mm × 21mm × 10.3mm |
| Operating Environment | -40℃ to +80℃ |
| Storage Environment | -50℃ to +85℃ |
| Humidity Resilience | 5% – 95% RH, non-condensing |
| Vibration Rating | 6.06grms random vibration, all axes |
| Launch Shock Rating | 80g sawtooth shock @ 4ms duration, 3 axes × 6 directions |
| Environmental Certification | RoHS and REACH Compliant |
V. Optical Lens Selection & Target Detection Range
| Focal Length / F# | FOV (H×V) | IFOV | Lens Depth of Field (DoF) | Detection / Recognition / Identification (Range) | Lens & Flange Weight |
|---|---|---|---|---|---|
| 9.1mm F1.1 Manual | 28.9° × 21.7° | 1.3mrad | 1.73m ~ ∞ | 1.1km / 0.25km / 0.17km | 10.5g ±5% |
| 13.5mm F1.0 Manual | 31.9° × 25.7° | 0.9mrad | 3.8m ~ ∞ | 1.5km / 0.37km / 0.19km | 15.2g ±5% |
| 18mm F1.1 Manual | 24.2° × 19.5° | 0.7mrad | 6.14m ~ ∞ | 2.0km / 0.5km / 0.25km | 25g ±5% |
| 25mm F1.0 Prime | 17.5° × 14.0° | 0.48mrad | 13.02m ~ ∞ | 2.8km / 0.7km / 0.35km | 67g ±2% |
| 35mm F1.0 Prime | 12.5° × 10.0° | 0.34mrad | 25.52m ~ ∞ | 3.9km / 0.97km / 0.49km | 111g ±2% |
| 55mm F1.0 Prime | 8.0° × 6.4° | 0.22mrad | 63m ~ ∞ | 6.1km / 1.5km / 0.76km | 191g ±2% |
Note: Detection, recognition, and identification ranges are estimated against pedestrian targets (1.8×0.5×0.3m) per Johnson’s Criteria.
VI. Mechanical and Optical Interface Specifications
Core Form Factor: 21mm × 21mm × 10.3mm | Assembly Height with 9.1mm Lens: 29.50mm | Mounting: M1.6 thread pattern supported.VII. Universal Adaptability of the SWaP-C Thermal Imaging Module
The NLIR384 balances optimal thermal processing matrix data with aggressive cost control measures. By removing mechanical shutters and offering a multi-protocol interface routing matrix (MIPI, DVP, USB), this SWaP-C thermal imaging module guarantees effortless integration into any edge-computing or remote diagnostics layout. Across drone gimbals, wearable safety apparatus, and factory automation arrays, the NLIR384 provides resilient, high-refresh thermal mapping that seamlessly scales alongside modern industrial demands.
Additional information
| Weight | 6098603 lbs |
|---|
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