Short Wave Infrared (SWIR) imaging enables applications in a segment of the electromagnetic spectrum we can’t see with the human eye – or traditional CMOS sensors. See our whitepaper on SWIR camera concepts, functionality, and application fields.
Until recently, SWIR imaging tended to require bulky cameras, sometimes with cooling, which were not inexpensive. Cost-benefit analysis still justified such cameras for certain applications, but made it challenging to conceive of high-volume or embedded systems designs.
Enter Sony’s IMX992/993 SenSWIR InGaAs sensors. Now in Allied Vision Technologies’ Alvium camera families. These sensors “see” both SWIR and visible portions of the spectrum. So deploy them for SWIR alone – as capable, compact, cost-effective SWIR cameras. Or you can design applications that benefit from both visible and SWIR images.
Camera models and options first
The same two sensors, both the 5.3 MP Sony IMX992 and the 3.2 MP Sony IMX993, are available in the Allied Vision Alvium 1800 series with USB3 or MIPI CSI-2 interfaces. As well as in the Alvium G5 series with 5GigE interfaces.
And per the Alvium Flex option, besides the housed presentation available for all 3 interfaces, both the USB3 and CSI-2 versions may be ordered with bare board or open-back configuration, ideal for embedded designs.
Broken out by part number the camera models are:
- Alvium 1800 U-320 VSWIR
- Alvium 1800 U-530 VSWIR
- Alvium 1800 C-320 VSWIR
- Alvium 1800 C-530 VSWIR
- Alvium G5-320 VSWIR
- Alvium G5-530 VSWIR
More about the Sony IMX992 / IMX993 sensors
The big brother IMX992 at 5.3 MP and sibling IMX993 at 3.2 MP share the same underlying design and features. Both have 3.45 µm square pixels. Both are sensitive across a wide spectral range from 400 nm – 1700 nm with impressive quantum efficiencies. Both provide high frame rates – to 84 fps for the 5.3 MP camera, and to 125 fps at 3.2 MP.
Distinctive features HCG and DRRS
Sony provides numerous sensor features to the camera designer, which Allied Vision in turn makes available to the user. Two new features of note include High-Conversion-Gain (HCG) and Dual-Read-Rolling-Shutter (DRRS). Consider the images below, to best understand these capabilities:
With the small pixel size of 3.45 µm, an asset in terms of compact sensor size, Sony innovated noise control features to enhance image quality. Consider the three images above.
The leftmost was made with Sony’s previously-released IMX990. It’s been a popular sensor and it’s still suitable for certain applications. But it doesn’t have the HCG nor DRRS features,
The center image utilized the IMX992 High-Conversion-Gain feature. HCG reduces noise by amplifying the signal immediately after light is converted to an electrical signal. This is ideal when shooting in dark conditions. In bright conditions one may use Low-Conversion-Gain (LCG), essentially “normal” mode.
The rightmost image was generated using Dual-Read-Rolling-Shutter mode in addition to HCG. DRRS mode delivers a pair of images. The first contains the imaging signal together with the embedded noise. The second contains just the noise components. The camera designer can subtract the latter from the former to deliver a synthesized image with approximately 3/4 of the noise eliminated.
Alvium’s SWaP+C characteristics ideal for OEM systems
With small Size, low Weight, low Power requirements, and low Cost, Alvium SWIR cameras fit the SWaP+C requirements. OEM system builders need or value each of those characteristics to build cost-effective embedded and machine vision systems.
1st Vision’s sales engineers have over 100 years of combined experience to assist in your camera and components selection. With a large portfolio of cameras, lenses, cables, NIC cards and industrial computers, we can provide a full vision solution!
About you: We want to hear from you! We’ve built our brand on our know-how and like to educate the marketplace on imaging technology topics… What would you like to hear about?… Drop a line to info@1stvision.com with what topics you’d like to know more about