Type II Superlattice Cooled Infrared Detectors Long Wave 320x256 /
30μM
Product Description
C330S LWIR is one of T2SL lwir cooled infrared detectors developed
by Global Sensor Technology (GST). It consists of a 320x256@30µm
Type II Superlattice (T2SL) cooled photon detector, Integrated
Detector Cooler Assembly (IDCA), designed for high performance
7.7~9.5μm Long Wave Infrared (LWIR) wavebands.
Without fear of interference, C330S LWIR cooled lwir detector is
suitable for target detection in complex background, such as ships
on the sea in the scene of light reflection on the water surface,
aircraft in the background of clouds in the sky, etc.
T2SL cooled detectors adopts the world's leading T2SL technology
which enables mass production capability and thus ultimately it
will benefit the users with more affordable price but never
compromise in performance. The industrial standard size and
interface enables customers to switch to and benefit from the most
advanced T2SL technology without further R&D investment.
Main Features:
- Resolution: 320x256
- Pixel Pitch: 30µm
- High Sensitivity
- Good Imaging Effect
- Low Noise
- Stable Performance
- Excellent Non-uniformity
Product Specifications
| Model | C330S LWIR |
| Material | T2SL |
| Resolution | 320x256 |
| Pixel Pitch | 30μm |
| Spectral Range | 7.7μm~9.5μm LW |
| Working Mode | Snapshot; ITR Integration Mode; Windows Mode; Anti-blooming |
| Charge Capacity | 36Me-/12Me- |
| Dynamic Range | ≥80dB |
| Output Channel | 1 or 4; Up to 6.6 Mpixel/s per Output |
| NETD | ≤25mK (F2) |
| Effective Pixel Rate | ≥99.5% |
| Response Non-uniformity | ≤8% |
| Cooler Type | RS058 |
| Steady Power Consumption | <8W |
| Max Power Consumption | <17W |
| Power Supply | 24V DC |
| Cooling Time | <5min30s |
| Weight | ≤600g |
| Dimension (mm) | 142x58.5x71 |
| Working Temperature | -45°C ~ +71°C |
Industrial Applications
The C330S LWIR cryogenically cooled infrared detector is widely
used many areas such as Remote Monitoring System, Flight Vision
Enhancement System, Multi-sensor Payload etc.
Our Advantages
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.
