The Sweep+ captures R, G, B and NIR (depending on model) bands simultaneously. For this purpose, the sensors are mounted on a specially designed optical prism, which divides the incident light into red, green, blue and optionally NIR colour channels. JAI’s patented method ensures precise alignment of the four sensors on the same optical axis. This means significantly less colour fringing and better data. It also avoids the necessity to subsequently correct image data via software.
Prism-based colour line scan camera for high colour precision
The JAI Sweep+ colour line scan cameras are based on advanced prism technology, which is one of the main competences of JAI. These cameras capture the red, green, blue and NIR (depending on the model) bands in four separate channels simultaneously through the same optical path.
Sweep+ cameras are available with a variety of sensor resolutions (up to 8192 pixels) and sensor types (CCD and CMOS). All cameras in the range feature one-push automatic white balance, flat-field correction, colour shading compensation and binning functions for increased sensor sensitivity.
Reasons to select the JAI Sweep+
Thanks to the advanced prism technology used in the JAI Sweep+ cameras, the optical axis is always exactly aligned, thus eliminating parallax issues. This also avoids complex alignment procedures associated with off-angle viewing or inspection of cylindrical or wavy objects. This makes the camera perfectly suited for difficult shapes.
The advanced sensor technology in combination with an improved light transmittance ensures faster shutter speeds than with other cameras for the same light intensity. Inspection times decrease while system productivity increases.
Cameras fitted with the 10GBASE-T interface provides RGB output at a maximum line rate as high as 97 kHz, while YUV colour data can be output at faster rates up to 145 kHz. Built-in auto-negotiation technology provides automatic backwards compatibility to slower N-BASE-T (5 Gbit/s and 2.5 Gbit/s) and 1000BASE-T (1Gbit/s). This flexibility makes it suitable for a large range of industrial line scan applications from the slowest to the fastest speeds.
The latest models of the Sweep + can be synchronised directly to the rotary encoders in a conveyor system to reduce the complexity of the total system. Four separate input lines plus built-in algorithms are provided to support a direct connection from up to two separate rotary encoders. Signals can also be daisy-chained from one camera to the next in multi-camera setups. Precision Time Protocol (PTP) support in the camera ensures image capture at the same time when it is linked to other PTP-supported cameras. The synchronously acquired images share the same timestamp, making image analysis easier.
The SW-8000Q-SFP model features an “Enhanced Small Form-factor Pluggable” (SFP+) interface which delivers GigE Vision output via optical fiber cables. The SFP+ interface supports very long cables with low latency (low data transmission delay), low data transmission noise, as well as immunity to electromagnetic interference and system crosstalk.
- Sensor: CCD and CMOS
- Resolution: up to 8192 pixels
- Line rate: up to 100 kHz
- Features: gain correction and electronic shutter can be set individually, flat-field correction and colour shading compensation
- Lens mount: M52-mount or F-mount
- Interfaces: CameraLink, 10GBASE-T copper interface (SW-xxxx-10GE) and 10GBASE-R fiber interface (SW-xxxxx-SFP) with GenICam-compliant GigE Vision output
Markets and Applications
- Food checking tasks, like fruit and vegetable sorting and grading
- Automated Optical Inspection (AOI) for PCBs and electronic components
- Surface control of wood, tiles or metal surfaces for scratches and damages
- Flat web inspection of textiles, paper or glass
- 2D and 3D colour print inspection
- Paint coat applications to check colour correctness or even application of paint
- 3D inspection of bottles, cans, or other cylindrical items
|Model||Horizontal res. (Px)||Max. line freq. (kHz)||Interface||Lens mount||Sensor type||Pixel size (µm)||Sensor length (mm)|
|JAI LQ-201 CL-F||2048||33.0||CameraLink||Nikon F-Mount||CMOS||14.00||28.67|
|JAI LQ-201 CL-M52||2048||33.0||CameraLink||M52 x 0.75||CMOS||14.00||28.67|
|JAI LQ-401 CL-F||4096||18.0||CameraLink||Nikon F-Mount||CMOS||7.00||28.67|
|JAI LQ-401 CL-M52||4096||18.0||CameraLink||M52 x 0.75||CMOS||7.00||28.67|
|JAI LT-200 CL-F||2048||30.4||CameraLink||Nikon F-Mount||CMOS||14.00||28.67|
|JAI LT-200 CL-M52||2048||30.4||CameraLink||M52 x 0.75||CMOS||14.00||28.67|
|JAI LT-400 CL-F||4096||16.2||CameraLink||Nikon F-Mount||CCD||7.00||28.67|
|JAI LT-400 CL-M52||4096||16.2||CameraLink||M52 x 0.75||CCD||7.00||28.67|
|JAI SW-2001Q-CL-F||2048||18.6||CameraLink||Nikon F-Mount||CCD||14.00||28.70|
|JAI SW-2001Q-CL-M52||2048||18.6||CameraLink||M52 x 0.75||CCD||14.00||28.70|
|JAI SW-2001T-CL-F||2048||18.6||CameraLink||Nikon F-Mount||CCD||14.00||28.70|
|JAI SW-2001T-CL-M52||2048||18.6||CameraLink||M52 x 0.75||CCD||14.00||28.70|
|JAI SW-4000Q-10GE-F||4096||74.0||Gigabit Ethernet||Nikon F-Mount||CMOS||7.50||30.72|
|JAI SW-4000Q-10GE-M52||4096||74.0||Gigabit Ethernet||M52 x 0.75||CMOS||7.50||30.72|
|JAI SW-4000T-10GE-F||4096||97.0||Gigabit Ethernet||Nikon F-Mount||CMOS||7.45||30.72|
|JAI SW-4000T-10GE-M52||4096||97.0||Gigabit Ethernet||M52 x 0.75||CMOS||7.45||30.72|
|JAI SW-4000T-MCL-F||4096||66.0||CameraLink||Nikon F-Mount||CMOS||7.45||30.72|
|JAI SW-4000T-MCL-M52||4096||66.0||CameraLink||M52 x 0.75||CMOS||7.45||30.72|
|JAI SW-8000Q-10GE-F New model||8192||37.0||Gigabit Ethernet||Nikon F-Mount||CMOS||3.75, 5.78||30.72|
|JAI SW-8000Q-10GE-M52 New model||8192||37.0||Gigabit Ethernet||M52 x 0.75||CMOS||3.75, 5.78||30.72|
|JAI SW-8000Q-SFP-F New model||8192||37.0||NF-Mount||CMOS||3.75, 5.78||30.72|
|JAI SW-8000Q-SFP-M52 New model||8192||37.0||M52 x 0.75||CMOS||3.75, 5.78||30.72|