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MCT Cooled Thermal Imaging MWIR Infrared Detector Mid Wave 128x128 / 25μM
| Place of Origin | Wuhan, Hubei Province, China |
|---|---|
| Brand Name | SensorMicro |
| Certification | ISO9001:2015; RoHS; Reach |
| Model Number | C125M MWIR |
| Minimum Order Quantity | 1 Piece |
| Price | Negotiable |
| Payment Terms | L/C,T/T |
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xProduct Details
| Resolution | 128x128 | NETD | <20mK |
|---|---|---|---|
| Spectral Range | 3.7~4.8μm MW | Pixel Size | 25μm |
| Highlight | Thermal Imaging MWIR Infrared Detector,MCT Cooled MWIR Infrared Detector,Mid Wave Cooled Infrared Detectors |
||
Product Description
C125M MWIR Cooled Infrared Detector
Mid Wave FPA 128x128 / 25μm MCT Cooled Infrared Detector
Product Description
The C125M MWIR is a cooled thermal imaging detector. Combined with a maintenance free 128X128 IDDCA and a miniature Joule Thomson cooler.
The C125M MWIR fully satisfies the requirement for thermal imaging and very short cool down time to ensure the efficiency.
Main Features
• Resolution: 128x128
• Pixel Size: 25μm
• High Sensitivity
- Compact Design
- Lightweight
• Throttling cool down, fast startup
• Small size, light weight, compact structure
• No vibration
• No electromagnetic interference
Product Specifications
| Model | C125M MWIR | |
| Sensitive Material | HgCdTe/MCT | |
| Resolution | 128×128 | |
| Pixel Size | 25μm | |
| Spectral Range | 3.7μm±0.2μm~4.8μm±0.2μm | |
| Working Mode | Snapshot; Integration Mode; Anti-blooming | |
| Charge Capacity | 24Me-/8Me- | |
| Dynamic Range | ≥80dB | |
| Number of Output | Single; Up to 6.5MHz | |
| Cryocooler | JF428 | JF618 |
| Typical NETD | 10mK (F1.5) | 10mK (F2) |
| Effective Pixel Rate | ≥99.5% | ≥99.5% |
| Response Non-uniformity | ≤5% | ≤5% |
| Cooling Time (20℃) | ≤5s (50MPa, Ar, 20℃) | ≤20s (50MPa, Ar, 20℃) |
| Maximum Size (mm) | Φ35×48.5 | Φ35×42.5 |
| Weight | ≤100g | ≤90g |
| Operating Temperature | -45℃~+71℃ | -45℃~+71℃ |
Company Profile
SensorMicro was founded with a simple but powerful belief: Innovation should serve real-world needs.
SensorMicro exists to empower people and systems to see beyond the surface—into the patterns, the problems, and the possibilities that lie beneath.
By turning invisible heat into visible truth, we help industries make smarter decisions, protect what matters most, and navigate complexity with clarity.
Heeding to our insistence on being self-made and customer-first has become a sure recipe for SensorMicro's momentum. As our business spans much of the globe, we've charged ahead on all fronts—from security, firefighting, industrial inspection, medical care, and machine vision, to environmental monitoring and key aspects of carbon neutrality—helping partners unlock the full potential of intelligent infrared sensing, and connecting the dots of life.
We are more than an infrared technology company. We are a community of people committed to building a sustainable, ethical, and human-centered future. Every pixel of innovation we create is a promise — a promise to protect, to empower, and to serve.
FAQs
1. Advantages of Optical Gas Imaging
Time-saving & Efficient: support large-scale real-time detection, rapid leak location, no need for interrupting production.
Long Range Detection: away from dangerous and complex areas, non-contact non-destructive testing, without additional radiation source
Easy to Analyze: intuitive imaging, instant storage, convenient analysis
Multi-function Inspection: a variety of gases can be detected, with excellent remote temperature measurement function
2.Working Principle of Optical Gas Imaging
Optical gas imaging is a kind of infrared technology that could see invisible industrial gases.
After absorbing infrared radiation at specific wavelengths, infrared radiation difference will cause between the gas and the background.
The gas leak detection infrared detector with built-in narrowband filter only receives the infrared band near the gas infrared absorption peak, and can convert the gas into visible infrared images through the radiation difference between the gas and the background.
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